Abstract Book 2012 10th Annual Meeting May 23 - 25, 2012
Transcription
Abstract Book 2012 10th Annual Meeting May 23 - 25, 2012
Abstract Book 2012 10th Annual Meeting May 23 - 25, 2012 Rheingoldhalle Congress Center Mainz, Germany Abstract Book sponsored by: CIMT | Summary Summary Pages: Chapter title: 005 006-007 008 Introduction Who We Are Websites 010 011-018 2012 Program Committee 2012 Speakers 019-021 022-025 026-029 Program Schedule CIMT 2012 | Day 1 | May 23 Program Schedule CIMT 2012 | Day 2 | May 24 Program Schedule CIMT 2012 | Day 3 | May 25 030 031 Floor Plan Program Overview 032 033 Sponsors, Partners & Supporters Industry Exhibitors 034 Poster Presentations 036-047 Abstract List 050-093 094-137 138-164 165-197 198-234 235-271 Cellular Therapy Improving Immunity Immunomonitoring New Targets & New Leads Therapeutic Vaccination Tumor Biology & Interaction with the Immune System 272 Imprint 2 CIMT | Introduction Dear colleagues, members and friends, Towards Next-Generation Cancer Immunotherapy It is with great satisfaction and joy that we are welcoming you to the 10th annual meeting of the Association of Cancer Immunotherapy. When CIMT was founded 10 years ago, a small group of immunologists and oncologists saw the need for a European forum to exchange knowledge and expertise on the emerging discipline of cancer immunotherapy. There was a lot to learn, a lot to explore and the desire to connect with pioneering researchers worldwide. Since then, the CIMT annual meetings have steadily grown in scope and attendance, keeping pace with the field of immuno-oncology. We are proud to have given many young researchers the chance to present their work for the first time. We are honored that so many acknowledged experts have come to CIMT and shared their wisdom. We thank you all for your dedication and passion to develop new and better therapies for people suffering from cancer. CIMT 2012 will provide a stage for reflecting the aggregate knowledge of 10 years of cancer immunotherapy, presenting current scientific approaches and discussing next-generation therapies. Highlights of the 10th anniversary meeting will be individualized therapy approaches and therapeutic antibodies. Sessions in therapeutic vaccination, cellular therapy and improving immunity will discuss recent advances and future applications. Immunomics, combining immunology with genomics, transcriptomics, systems biology, and bioinformatics, is having an increasing impact on the development and testing of immunotherapies. A dedicated session will highlight new methods, tools, and results that are advancing our ability to generate immunotherapies and treat cancer patients. In addition, CIP (CIMT Immunoguiding Program) and RRG (Regulatory Research Group) will hold sessions and panel discussions focusing on standardized and innovative tools for improving the quality of immunomonitoring and facilitating the translation of scientific knowledge into drug development. We look forward to an exciting anniversary meeting and the next decade of innovations in cancer care. The CIMT Executive Board Ch. Huber (Mainz) H.G. Rammensee (Tübingen) P. Johnson (Southampton) C. Figdor (Nijmegen) U. Kalinke (Hanover) D. Schendel (Munich) C. Melief (Leiden) 5 CIMT | Who We Are CIMT | Who We Are Who We Are Who We Are The Association Executive Board: The Association for Cancer Immunotherapy (CIMT) was founded in 2002 as an information and education platform for the emerging field of immunological cancer therapy. Physicians and researchers from different fields of clinical and theoretical medicine were the founding members of the association. CIMT has since become the leading European communication platform for all aspects of science and translation in the field of cancer immunotherapy. CIMT operates as an independent nonprofit organization in Mainz, Germany, and is financed by donations, sponsoring and congress fees. Our Goals Christoph Huber, chair Sebastian Kreiter Mainz, Germany Mainz, Germany Peter Johnson Southampton, UK offering a platform for knowledge exchange between scientists of all faculties interested in cancer immunotherapy. CIMT connects industry-based scientists, academic scientists, regulatory authorities and physicians alike. * cooperating internationally with partners in related consortia, regulatory agencies, journals, academic institutions and companies. * initiating working groups that actively accelerate the development in the field. Executive Director - Translational Medicine: Ulrich Kalinke Cedrik M. Britten Hanover, Germany Mainz, Germany Cornelis Melief Leiden, Netherlands CIMT promotes the development of cancer immunotherapies by * Executive Director - Science: Scientific Secretary Hans-Georg Rammensee Mustafa Diken Tübingen, Germany Mainz, Germany Carl Figdor Nijmegen, Netherlands Executive Director - Communications: Dolores Schendel Christine Castle Munich, Germany Mainz, Germany * organizing annual meetings, advanced education seminars, symposia, workshops, and by publishing guidelines and textbooks. 6 7 CIMT | Websites Websites visit our websites www.cimt.eu & www.meeting.cimt.eu find us on facebook www.facebook.com/cimtmainz follow us on twitter www.twitter.com/C_IMT 8 CIMT | Program Committee CIMT | Speakers 2012 Program Committee 2012 Speakers Axel Hoos Dolores Schendel Hinrich Abken Tobias Raum Co-Chairman, CIC Executive Committee; Program Leader in Immunology/Oncology at GlaxoSmithKline GlaxoSmithKline Philadelphia, USA Institute for Molecular Immunology (IMI) Helmholtz Zentrum Munich, Germany University of Cologne Amgen Research Cologne, Germany Munich, Germany Wolfgang Herr Matthias Theobald 3rd Medical Department University Medical Center of the Johannes Gutenberg University Mainz, Germany 3rd Medical Department University Medical Center of the Johannes Gutenberg University Mainz, Germany Sebastian Kreiter Cedrik M. Britten Translational Oncology (TRON) at the University Medical Center of the Johannes Gutenberg University Mainz, Germany Ribological GmbH Mainz, Germany Cécile Gouttefangeas Mustafa Diken University of Tübingen Tübingen, Germany Translational Oncology (TRON) at the University Medical Center of the Johannes Gutenberg University Mainz, Germany Ulrich Kalinke Hansjörg Schild Twincore Hanover, Germany Research Center Immunology (FZI) at the Johannes Gutenberg University Mainz Mainz, Germany Hinrich Abken is Professor for Genetics & Immunology at CMMC (Center for Molecular Medicine Cologne) at the University of Cologne and Dept I Internal Medicine, Oncology-Hematology at the University Hospital Cologne where he is working towards the development of adoptive cell therapy of malignant diseases using engineered T-cells. Dr. Abken's group made significant contributions in the field of chimeric antigen receptors, recombinant targeting molecules to redirect T-cells towards defined targets. The current projects are aimed at immunotherapy of melanoma and gastrointestinal carcinomas, the development of novel strategies in modulating an immune response and translation into clinical trials. Shizuo Akira WPI Immunology Frontier Research Center Osaka, Japan Shizuo Akira, M.D., PhD, is Director of the WPI Immunology Frontier Research Center at Osaka University as well as a member of the National Academy of Sciences and European Molecular Biology Organization. Dr. Akira has received a number of prestigious awards including Robert Koch Prize, William B. Coley Award, and Keio International Medical Science Prize. Dr. Akira has made ground-breaking discoveries in the field of immunology, most significantly in the area of innate host defense mechanisms. Among his discoveries is the demonstration, through the ablation of toll-like receptor (TLR)s genes, that TLRs recognize a discrete collection of molecules of microbal origin, and later the RNA helicases, RIG-I (retinoic-acid-inducible protein I) and MDA5 (melanoma differentiation-associated protein 5). James P. Allison Sloan-Kettering Institute New York, USA James P. Allison is Chair of the Immunology Program in the Sloan-Kettering Institute, a Howard Hughes Medical Institute investigator, a member of the National Academy of Sciences, and the incumbent of the David H. Koch Chair in Immunologic Studies at Memorial Sloan-Kettering. Dr. Allison is a leader in the field of immunology, particularly in developing ways to help the immune system recognize and destroy cancer cells. His research is focused on the mechanisms that regulate the immunological response of T lymphocytes, especially strategies to manipulate those responses in clinically relevant areas, including autoimmunity, allergies, vaccinations, and tumor therapy. Dr. Allison has shown that an immune-regulating molecule called cytotoxic T lymphocyte-associated antigen-4 (CTLA-4) inhibits activated T-cells in the immune system and prevents them from attacking the body’s own tissues. He and his colleagues have now created antibodies to human CTLA-4 that are being studied in human clinical trials for the treatment of melanoma, renal cell carcinoma, prostate cancer, and ovarian cancer. 10 Tobias Raum, PhD, is head of the “Lead Generation group” of Amgen Research Munich following the acquisition of Micromet (Munich) by Amgen in early 2012. He had held the equivalent position at Micromet since 2001. His group is involved in the selection and optimization of human antibody fragments as a starting point for novel antibody and BiTE programs. Several candidate specificities selected by Dr. Raum’s group are currently in clinical trials or advanced preclinical phase. In addition, Dr. Raum also heads Amgen Research Munich’s “New BiTE Platform group which is involved in the evaluation of BiTE antibodies against new indications. This group has recently demonstrated, that BiTE antibodies are able to efficiently mediate eradication of cancer stem cells and that Tregs can be recruited in BiTE antibody mediated killing of target cells. Prior to this, Dr. Raum headed the Molecular Design group at Connex GmbH (Munich) after having received his PhD from the University of Munich in 1999. Jay Berzofsky National Cancer Institute Bethesda, USA Jay Berzofsky is Chief of the Vaccine Branch, Center for Cancer Research, National Cancer Institute. He joined NIH in 1974. Dr. Berzofsky’s research has focused on antigen processing and presentation by MHC molecules, the structure of antigenic determinants, cytokine and regulatory cell control of T-cell function and avidity, and translation to the design of vaccines for AIDS, malaria, cancer, and viruses causing cancer. He has over 435 scientific publications and has received a number of awards, including the U.S. Public Health Service Superior Service Award, the 31st Michael Heidelberger Award, the McLaughlin Visiting Professorship, the Australasian Society for Immunology Visiting Lectureship, and the Tadeusz J. Wiktor Memorial Lectureship. He is past President of the American Society for Clinical Investigation, and a Fellow of the American Association for the Advancement of Science. He was also elected Chair of the Medical Sciences Section of the American Association for the Advancement of Science (AAAS) 2007-08. He won the NIH Director’s Award and NCI Merit Award in 2008. Nicole Bidmon TRON Mainz, Germany Nicole Bidmon is an immunologist who focuses on reference samples to control immune assay performance for the most commonly used cellular T-cell assays. She is currently working in the laboratory for Cell Mediated Immunity (CMI) at TRON gGmbH, Mainz and is a co-organizer of CIMT/CIP proficiency panels to study the use of reference samples in T-cell assays across institutions. She studied biotechnology at the University of Applied Sciences, Berlin, and worked in a research group at the Imperial College, London defining the structure and function of archaeal and eukaryotic RNA polymerases. At the Max Delbrück Center for Molecular Medicine, Berlin, she completed her diploma thesis studying a knock-out mouse model to understand muscle contraction regulation. 11 CIMT | Speakers CIMT | Speakers 2012 Speakers 2012 Speakers Cedrik Britten Thomas Gajewski Cécile Gouttefangeas Holger Hoff Ribological GmbH University of Chicago Medicine Department of Immunology TRON Mainz, Germany Chicago, USA Tübingen, Germany Mainz, Germany Cedrik Britten is Vice President R&D at Ribological GmbH, a Mainz-based biotech company developing innovative immunotherapy against cancer. In addition, Dr. Britten is the CIMT Executive Director Translational Medicine and committee member of the CIMT Immunoguiding Program (CIP), where he is involved in generating tools to enable technical validation of T-cell assays across institutions and in promoting the concept of assay harmonization in the context of immunological monitoring of immunotherapy trials. Dr. Britten is also an active member of the CIMT Regulatory Research Group (RRG) that strives to gain and maintain a deep understanding of regulatory principles and promotes a science-driven critical review of existing regulatory documents in working out solutions to regulatory challenges. Peter Bross FDA Center for Biological Evaluation and Research (CBER) Rockville, USA Peter Bross is a clinical oncology team leader in the FDA Center for Biological Evaluation and Research (CBER), and previously worked as a clinical reviewer in the Division of Oncology Drug Products in the Center for Drug Evaluation and Research (CDER). Dr. Bross has expertise in the design and analysis of clinical oncology trials of cellular, tissue and gene therapies, especially cancer vaccines, as well as in trial design, eligibility criteria, dose escalation schema, definition of dose limiting toxicities, and study endpoints in relationship to decision making for later phase trials. He is also involved in late phase clinical oncology trials of biological therapies in terms of utilization of comparator arms, primary endpoints and secondary endpoints. Dr. Bross is a graduate of University of Virginia Medical School and completed fellowship training in Hematology and Oncology at The George Washington University. Dr. Bross has a particular interest in companion diagnostics and personalized medicine. Thomas Gajewski is a professor of pathology at the Department of Medicine Section of Hematology/Oncology at the University of Chicago Medicine, and the Ben May Institute. Dr. Gajewski researches and develops new treatments for patients with melanoma, investigating the regulation of T-cell activation, T-cell signaling, tumor immunology and immunotherapy of melanoma. His laboratory studies the molecular and cellular regulation of T lymphocyte activation and differentiation, and in turn applies this information to preclinical and clinical efforts to promote anti-tumor immunity in vivo. Dr. Gajewski serves as an editor for Cancer Research. In addition he is the President of the Society for Immunotherapy of Cancer (SITC). He has served on the program committees for the American Society for Clinical Oncology (ASCO) and the American Association for Cancer Research (AACR). Jérôme Galon INSERM Paris, France Jérôme Galon is Research Director for INSERM and Head of the Integrative Cancer Immunology Laboratory at Cordeliers Research Center in Paris. Dr. Galon has developed a multidisciplinary network with research scientists in immunology and cancerology, clinical teams and bioinformaticians. Dr. Galon believes that a global understanding of cancer requires the integration and analysis of genomic, proteomic, transcriptomic, molecular, cellular, as well as clinical data and requires bioinformatics. In 2010 he jointly received the William B. Coley Award for groundbreaking studies demonstrating that the “immune contexture” – including the functionality, location, and density of immune infiltrate in colorectal tumors – is a major prognostic factor for human cancers. John Castle University of Southampton TRON Southampton, UK John Castle is an expert in computational biology, next-generation sequencing (NGS), and genomics. Originally trained in physics at the University of Washington (Seattle) and at MIT, Dr. Castle developed advanced inverse theory methodologies to image earthquakes and plate tectonics. For the next ten years, he worked at Rosetta Inpharmatics, later part of Merck Sharp and Dohme (MSD), where he invented novel genomic technologies, including DNA microarrays, siRNAs, and NGS, and used super computers to analyse and interpret the data to apply the results to drug development. At TRON, he is Co-Director of the Biomarker Development Center and combines immunology, computational biology, and genomics using NGS to develop individualized “on-demand” cancer vaccines. 12 Martin Glennie is a Professor of Immunology and Head of the Cancer Sciences Academic Unit at the University of Southampton, specializing in antibody effector systems. Throughout his career Dr. Glennie has focused on translational research and understanding and improving how monoclonal antibodies (mAb) can be used in controlling cancer. Dr. Glennie has published more than 100 research articles in such peer-reviewed journals as Nature, Nature Medicine, Journal of Experimental Medicine, etc. He is an adjunct Professor to the Dartmouth Medical School, NH and consults widely for the biotech industry in Europe and the US. He is also a frequent reviewer for a wide range of scientific journals and granting bodies, and sits on review panels and advisory boards for Cancer Research UK and the NIH. Holger Hoff’s research is focused on the regulation of T-cell activation and signal transduction. Dr. Hoff studied biology at the University of Cologne and received his PhD at the German Arthritis Research Center in Berlin. After his post-doctoral training at the Charité in Berlin, he moved to Mainz where he is now Head of the “Designer T-cells” Functional Unit at TRON – Translational Oncology at the University Medical Center Mainz. His work aims at the generation of T-cells with customized characteristics and improved anti-tumoral potency for the application in adoptive T-cell therapies. Sine Reker Hadrup Patrick Hwu Center for Cancer Immune Therapy, University Hospital Herlev University of Texas, M. D. Anderson Cancer Center Copenhagen Denmark Houston, USA Sine Reker Hadrup is Group Leader at the Center for Cancer Immune Therapy, University Hospital Herlev, Copenhagen, Denmark, and an external Associate Professor at the University of Copenhagen, Institute of International Health, Immunology and Microbiology. The main focus of Dr. Hadrup’s research group is the use and development of high-throughput technologies for T-cell detection, the identification of new T-cell epitopes and specific T-cell populations of relevance for cancer immune therapy. Additionally, Dr. Hadrup has been involved in the organization of the CIMT Immunoguiding Program (CIP) proficiency panels for MHC multimers for several years. Wolfgang Herr University Medical Center, Johannes Gutenberg University, Mainz Mainz, Germany Martin Glennie Mainz, Germany Cécile Gouttefangeas is Group Leader at the Department of Immunology in Tübingen, Germany. Her long-standing focus is the characterization of adaptive immune responses against cancer. This includes the description of tumor antigen-derived T-cell epitopes, of antibodies recognizing tumor antigens and of immune effector cells in cancer patients before or during immunotherapy. Dr. Gouttefangeas is also a founding member of the international CIMT Immunoguiding Program (CIP) for harmonization of the techniques applied for monitoring antigen-specific T-cells and is currently co-chairing the CIP steering committee. Wolfgang Herr is Associate Professor of Medicine at the University Medical Center, Johannes Gutenberg University, Mainz, Germany, where he specializes in hematology and medical oncology. A post-doc research fellowship at the University of Pittsburgh, USA, was followed by a bone marrow transplantation training program at the Fred Hutchinson Cancer Research Center in Seattle, USA. Today, his major research interests include T-cell depleted allogeneic HSCT protocols, integrating adoptive immunotherapy with pathogen and leukemia-specific T lymphocytes. Currently in charge of the Center’s clinical and experimental hematopoietic stem cell transplantation (HSCT) program, Dr. Herr also directs the clinical research group KFO183 ‘Optimized Allogeneic Lymphocyte Therapy’ of the Deutsche Forschungsgemeinschaft, which comprises several research groups at the Universities of Mainz and Tübingen. KFO183’s research focus is the development of immunomodulatory strategies to improve the efficiency and specificity of graftderived lymphocyte reactions in the context of allogeneic HSCT. Patrick Hwu is Co-Director of the Center for Cancer Immunology Research and Chair of the Department of Melanoma Medical Oncology at the University of Texas, M. D. Anderson Cancer Center with over 20 years of experience in the field of tumor immunology and concept-to-clinic studies. He received training in Internal Medicine and Medical Oncology at the Johns Hopkins Hospital and National Cancer Institute, respectively. For over 10 years, he was a Senior Investigator at the National Cancer Institute, and performed novel clinical and laboratory studies of cancer immunotherapies. He has taken a number of concepts from the laboratory to the clinic including studies of vaccines and adoptive T-cell therapies. Throughout the years he has trained numerous doctors, scientists, and medical students who are currently pursuing careers in academic medicine. Carl June University of Pennsylvania, Abramson Family Cancer Research Institute Philadelphia, USA Carl June is currently Director of Translational Research at the University of Pennsylvania, and an Investigator of the Abramson Family Cancer Research Institute. Before his current position, Dr. June was Head of the Department of Immunology at the Naval Medical Research Institute and Professor at the Uniformed Services University for the Health Sciences in Bethesda, Maryland. He maintains a research laboratory that studies various mechanisms of lymphocyte activation that relate to immune tolerance and adoptive immunotherapy. Dr. June’s lab has developed a large-scale tissue culture technique that permits the efficient propagation of polyclonal HIV CD4 and CD8 T-cell subsets. Several clinical trials involving adoptive immunotherapy of autologous and allogeneic T-cells are in process. Four trials are using genetically engineered T-cells. 13 CIMT | Speakers CIMT | Speakers 2012 Speakers 2012 Speakers Kyogo Itoh Tibor Keler Antonio Lanzavecchia Michael Nishimura Kurume University Medical School Celldex Therapeutics Institute for Research in Biomedicine Loyola University Kurume, Japan Phillipsburg, USA Bellinzona, Switzerland Chicago, USA Kyogo Itoh is Professor of Immunology at the Department of Immunology and Immunotherapy at Kurume University Medical School. Dr. Itoh’s research is focused on the development of personalized peptide vaccines (PPV), which involve a personalized selection of peptides suitable for each patient based on pre-existing cellular and humoral responses, and vaccination of patients with these selected peptides. He has conducted several PPV trials in various cancer types, such as prostate cancers and glioblastoma, showing feasibility and efficacy of the PPV approach. Dr. Itoh also develops biomarkers for cancer vaccines using novel tumor antigens and peptide-specific antibodies. Sylvia Janetzki ZellNet Consulting, Inc, Assay Working Group Fort Lee, USA Sylvia Janetzki is the President of ZellNet Consulting, Inc., and Coordinator of the Assay Working Group of the CIC/CRI. The focus of her work has been immune monitoring approaches for clinical studies. In 1998 she founded ZellNet Consulting, a company specialized in the Elispot technique and its advancement. ZellNet cooperates with many organizations and institutions including the WHO and Elispot Resource Group, to enhance the knowledge about and improve the performance of Elispot assays. Her work also led to a tight collaboration with the Cancer Immunotherapy Consortium (CIC/CRI), for which she initiated and leads a proficiency panel program addressing different assays like Elispot, Multimer staining, ICS, Luminex, and others. This program, currently the largest program of its kind involving more than 100 laboratories from around the world, aims at a) offering an external validation program, and b) enhancing assay harmonization. First assay harmonization guidelines for the field have been published as a result of this program. Tibor Keler is currently Senior Vice President and Chief Scientific Officer of Celldex Therapeutics, a company he helped found and spin out from Medarex in 2005. Dr. Keler had spent 12 years at Medarex overseeing research and pre-clinical development activities. Previously he was a post-doctoral fellow at Fox Chase Cancer Center, and performed his graduate studies at the University of Pennsylvania receiving his PhD in Microbiology in 1989. His professional focus has been developing antibodybased therapeutics for treatment of cancer and infectious diseases. Samir Khleif Georgia Health Sciences University Augusta, Georgia Samir Khleif is the Director of Georgia Health Sciences University’s Cancer Center in Augusta, Georgia. Dr. Khleif is an experienced researcher into how tumors manipulate and suppress immune response. He is a graduate of the University of Jordan School of Medicine and was a Post-doctoral Research Fellow at Michigan State University. Before his current position, Dr. Khleif was Head of the Cancer Vaccine Section at the US National Cancer Institute in Bethesda, Maryland. As a native of Jordan, Dr. Khleif helped establish the King Hussein Institute for Cancer and Biotechnology in Amman, Jordan. His research focuses on integrating translational basic laboratory research and clinical trials to understand the interaction between tumor cells and the immune system and to develop cancer vaccines. Robert Kralovics Austrian Academy of Sciences Vienna, Austria Michael Kalos University of Pennsylvania School of Medicine Philadelphia, USA Michael Kalos is Adjunct Associate Professor in Pathology and Laboratory Medicine, and Founding Director of the Translational and Correlative Studies laboratory at the University of Pennsylvania School of Medicine where he is involved in the translational/clinical development and biomarker evaluation of novel cell-based immunotherapeutics. Dr. Kalos has authored multiple primary and review articles as well as book chapters in the field of cancer immunotherapy, and is a member of the steering committees for the CIC/CRI immune monitoring working group and representative to the CIP immune monitoring workgroup. 14 Robert Kralovics is a Principal Investigator at the Research Center for Molecular Medicine of the Austrian Academy of Sciences. Trained in biophysics, he did his post-doctoral work on the genetics of myeloproliferative disorders working with Josef Prchal at the University of Alabama at Birmingham, USA. He followed Prchal as an Assistant Professor at the Baylor College of Medicine in Houston. Robert Kralovics’ research interests lie in chronic myeloproliferative disorders (MPDs). His major achievement so far has been the identification of a gain-of-function mutation in the JAK2 kinase gene (V617F) that plays an important role in MPD pathogenesis. Prominently published in April 2005 in New England Journal of Medicine, the work has given Robert instant celebrity in the hemato-oncological field and fostered Robert’s interest in Jak2 as a potential therapeutic target. One of his new research tasks is to find new mutations using the latest genomics technologies. Antonio Lanzavecchia is the Director of the Institute for Research in Biomedicine in Bellinzona, Switzerland. He has been Professor of Immunology at the University of Genoa and at the University of Siena. Dr. Lanzavecchia’s research has covered several aspects of human immunology: antigen processing and presentation, dendritic cell biology, lymphocyte activation and traffic and, more recently, the cellular basis of T and B cell memory and the production of human monoclonal antibodies. He was awarded the EMBO medal in 1988 and the Cloëtta prize for deciphering the signals that regulate T-cell mediated immunity. In 2009, Dr. Lanzavecchia was named Full Professor of Immunology at the ETH in Zurich. Dr. Lanzavecchia has published more than 200 papers. His research has covered several aspects of human immunology: antigen processing and presentation, dendritic cell biology, lymphocyte activation and traffic, T and B cell memory. Recently he developed a method for the efficient isolation of human monoclonal antibodies from memory B cells, which has been successfully applied to infectious diseases such as SARSCoV, H5N1, HCMV, Dengue, Malaria and HIV-1. Michael Nishimura is a Professor in the Department of Surgery at Loyola University Chicago. He is also Associate Director of the Oncology Institute, Associate Director of the Cancer Center Translations Research, and Program Director of Immunologic Therapeutics at Loyola. His laboratory has had a long standing interest in the genetics of T-cell receptor (TCR) genes that mediate recognition of tumor and viral antigens. To improve the therapeutic efficacy of TCR gene modified T-cells, Dr. Nishimura’s laboratory has several ongoing projects designed to understand the biology of TCR transduced T-cells. Using a combination of mouse in vivo tumor models, in vitro human studies, and clinical trials, his laboratory is studying the mechanisms to increase the persistence and function of adoptively transferred T-cells. Another critical problem his laboratory is addressing is how to circumvent tumor immune escape. And finally, it is developing novel approaches for generating TCR transduced T-cells to treat cancer. Rienk Offringa Ignacio Melero German Cancer Research Center (DKFZ) University of Navarra Heidelberg, Germany Navarra, Spain Ignacio Melero serves as a Full Professor of Immunology at the University of Navarra (CIMA and Clínica Universitaria), where he leads a group on translational tumor immunotherapy with emphasis on cell therapy, cytokine gene therapy and immunostimulatory mAbs. He earned a PhD in immunology working on Natural Killer cell receptors with Miguel López-Botet. His work contributed to the functional identification of the KIRs, surface receptors that are key for the function of Natural Killer cells and subsets of T-cells. Dr. Melero’s post-doctoral experience in the USA was geared towards experimental tumor immunology and understanding co-stimulation and co-inhibition in the cellular immune response against cancer. His work contributed to the definition of immunological ignorance of tumor antiges and, more importantly, contributed decisively to T-cell co-stimulation via CD137. A main focus of his current research are immunotherapy clinical trials involving cell therapy and immunostimulatory monoclonal antibodies. Dr. Melero has been awarded the BIAL Prize of Medicine (Portugal, 2005) and other honors. Rienk Offringa is Head of the Molecular Oncology of Gastrointestinal Cancers Division at the German Cancer Research Center (DKFZ) and of the Pancreas Carcinoma Research Division at the Surgery Clinic of Heidelberg University. His research aims at developing immunotherapeutic strategies for modulation of endogenous T-cell immunity in patients with resectable pancreatic cancer. For this group of patients, Dr. Offringa also focuses on routine exome sequencing and mRNA expression profiling and development of tools for functional studies, particularly concerning tumor-stroma interaction in human pancreatic ductal adenocarcinoma. Christian Ottensmeier University of Southampton Southampton, UK Christian Ottensmeier is Professor in Experimental Cancer Medicine at the University of Southampton and Leader of the Southampton Experimental Cancer Medicine Centre. He has been a consultant in medical oncology since 2000, with a clinical focus on thoracic malignancies and melanoma. He co-developed a number of national NCRI studies in lung cancer and manages a broad and active clinical trials portfolio in both lung cancer and melanoma. His laboratory group focuses on the preclinical development and early-phase clinical testing of strategies to induce anti-tumour immune responses in patients. After an initial focus on B-cell malignancies, the majority of his work focuses on solid tumors. This has led to three linked, but distinct areas of investigation: detailed immunological evaluation of the effect of immunological intervention in patients, assay development and validation, and mechanistic studies in murine models as well as humans of immune responses to vaccination for further preclinical cancer vaccine development. The aim is to complete the loop back into the clinic. 15 CIMT | Speakers CIMT | Speakers 2012 Speakers 2012 Speakers Klaus Pantel Hansjörg Schild Pramod Srivastava Scott D. Tanner University Medical Center Hamburg-Eppendorf Johannes Gutenberg University Mainz University of Connecticut School of Medicine DVS Sciences, Inc. Hamburg, Germany Klaus Pantel is Professor and Chairman of the Institute of Tumor Biology at the University Medical Center Hamburg-Eppendorf. The institute is part of the Hubertus Wald Cancer Center/University Cancer Center Hamburg (UCCH). After his post-doctoral period in the USA on hematopoietic stem cell regulation (Wayne State University, Detroit), he performed research on cancer micrometastasis at the Institute of Immunology, University of Munich for 10 years. The pioneer work of Dr. Pantel in the field of cancer micrometastasis and circulating tumor cells is reflected by more than 250 publications in excellent high-ranking biomedical and scientific journals and numerous awards (e.g. AACR Outstanding Investigator Award 2010, German Cancer Award 2010, ERC Advanced Investigator Grant 2011). Moreover, Dr. Pantel was co-ordinator of the FP6 EU STREP “DISMAL” (Disseminated Malignancies); he serves on the Editorial Boards of international cancer journals (e.g. Clin. Cancer Res., Breast Cancer Res.) and organizes international symposia (ISMRC) on minimal residual cancer and circulating tumor cells. Ugur Sahin TRON Mainz, Germany Ugur Sahin is the founder and Managing Director of Science and Research at TRON (Translational Oncology at Mainz University Medical Center) where he is working towards developing novel cancer vaccines and individualized cancer immunotherapies. His current research focuses on the identification and characterization of new tumor antigens, the development of RNAbased cancer vaccines, and the development of diagnostic tools for the early detection of cancer. Dr. Sahin holds several patents on novel, highly tumor-specific tumor antigens as well as on RNA technology to achieve design and synthesis of highly potent RNA molecules for induction of immunity. In addition to being at the helm of TRON, Dr. Sahin serves as CEO of BioNTech and leads an independent oncology research team at Johannes Gutenberg University Mainz. Mainz, Germany Hansjörg Schild is Professor of Immunology and Managing Director of the Immunology Research Center at Johannes Gutenberg University in Mainz. Dr. Schild graduated in human biology. He was a post-doctoral fellow at Stanford University Medical School, Group Leader of the Department of Tumorvirus-Immunology of the German Cancer Research Center in Heidelberg and Group Leader at the Department of Immunology at the University of Tübingen. Dr. Schild is an expert in the immunobiology of heat shock proteins, adjuvants and antigen processing and presentation. In 2000 he received the Georges Köhler Award of the German Society for Immunology. Robert Schreiber Washington University School of Medicine St. Louis, USA Robert Schreiber is Professor of Molecular Microbiology at the Washington University School of Medicine in St. Louis, USA. Dr. Schreiber was the first to show that an immune system protein, interferon gamma, activates immune cells called macrophages, making it possible for them to attack microbial invaders and tumor cells. His lab worked out many of the key aspects of this activation process, including detailing the structure of the interferon gamma receptor on macrophages and identifying the signaling proteins activated by the receptor. Dr. Schreiber and his colleagues also have proposed and won wide acceptance for a new theory of immune cell and cancer cell interaction called cancer immunoediting and produced the first experimental evidence for tumor eradication and tumor equilibrium. His current work is aimed at defining interferon-gamma specific roles in the tumor surveillance process, elucidating the genetic mechanisms employed by tumors to become interferon-gamma insensitive and exploring the relationships between interferongamma sensitivity of a tumor and its growth aggressiveness in vivo. Mark Sliwkowski Richard H. Scheuermann Genentech, Inc. UT Southwestern Medical Center San Francisco, USA Dallas, USA Richard H. Scheuermann is Chief of the Division of Biomedical Informatics and holder of the John H. Childers Professorship in Pathology at UT Southwestern Medical Center (Dallas). His recent research focus has been in the development of new algorithms for the analysis of gene expression microarray, genetic, comparative genomics, flow cytometry and biological network data, and in the development of approaches and standards for biomedical knowledge representation in the areas of immunology and infectious diseases research. He leads three large database development projects funded by the U.S. National Institutes of Health – the Influenza Research Database, the Virus Pathogen Bioinformatics Resource Center and the Immunology Database and Analysis Portal, and also serves as the Biomedical Informatics Key Function Lead for UT Southwestern’s Clinical and Translational Science Award (CTSA). 16 Mark Sliwkowski is currently a Senior Staff Scientist in Research Oncology at Genentech, Inc. He received his B.S. from the University of Delaware and his PhD in Biochemistry from North Carolina State University. Mark was a post-doctoral fellow in the laboratory of Dr. Theresa C. Stadtman in the Laboratory of Biochemistry, in the National Heart, Lung, and Blood Institute at NIH, where he studied bacterial enzymes that require selenium for their catalytic activity. Upon leaving NIH, he joined Triton Biosciences, Inc., where he studied growth factor receptors and their ligands. Mark joined Genentech in 1991 as a Senior Scientist and worked on a number of programs involving drugs directed against the human epidermal growth factor receptor family (also known as the HER or ErbB family). Two of these drugs, Herceptin® (trastuzumab) and Tarceva® (erlotinib) have received U.S. Food and Drug Administration approval. Farmington, USA Pramod Srivastava is Professor of Immunology and Medicine, and Director of the Carole and Ray Neag Comprehensive Cancer Center at the University of Connecticut School of Medicine. Dr. Srivastava’s contributions lie in the areas of the immunological functions of heat shock proteins and cancer immunology. The heat shock protein based cancer vaccine, vitespen or Oncophage, which was the first therapeutic cancer vaccine to be approved for clinical use anywhere in the world, was based on his discoveries, and was developed by him. After having obtained degrees in biology and chemistry as well as botany (paleontology), he studied yeast genetics and completed his PhD in Biochemistry at the Center for Cellular and Molecular Biology, Hyderabad, India. He also trained at Yale University and Sloan-Kettering Institute for Cancer Research. Dr. Srivastava obtained his MD degree from the University of Connecticut School of Medicine. He is widely published in scholarly journals and serves on editorial boards for several journals in immunology. He is an inventor on about a hundred awarded patents, and co-founded a number of biotechnology companies. Renata Stripecke Hanover, Medical School Hanover, Germany Renata Stripecke was trained in molecular biology, hematopoietic gene therapy and immunotherapy. At the University of Southern California and the University of California at Los Angeles, she held professorships in the field of genetic programming of dendritic cells. Since 2007, Dr. Stripecke has been heading the Lymphatic Cell Therapy Program within the Excellence Cluster Rebirth and has been an Associate Professor at the Department of Hematology at Hanover Medical School. Her research topic is the translation of genetic reprogramming of dendritic cell (DC) precursors into effective cell vaccines tailored for immune regeneration. DCs can be genetically programmed with designed lentiviral vectors in order to induce differentiation of highly viable and potent antigen-presenting cells. These lentivirus-induced DCs (iDCs) can be produced under clinically compliant conditions in just one day of ex vivo culture, which drastically simplifies clinical development. The R&D projects are aimed at immunotherapy of melanoma and leukemia and cytomegalovirus after stem cell transplantation. Markham, Canada Scott D. Tanner is co-founder and Chief Technology Officer of DVS Sciences, Inc., a biotech company that develops, manufactures and markets analytical instruments and reagents for high throughput, massively multi-parameter single cell analysis. He is also a Professor in the Department of Chemistry at the University of Toronto, Canada. Dr. Tanner received the University of Toronto 2011 Inventor of the Year Award in Biomedical and Life Sciences, the 2011 ThermoFisher Scientific Spectroscopy Award, the 2003 W.A.E. McBryde Medal, and the 2001 Manning Innovation Foundation Award of Distinction. He is a Fellow of the Royal Society of Chemistry (UK) and sits on the Editorial Board of the RSC’s Journal of Analytical Atomic Spectrometry. Zlatko Trajanoski Innsbruck Medical University Innsbruck, Austria Zlatko Trajanoski is Professor and Head of Bioinformatics at Innsbruck Medical University. Dr. Trajanoski focuses on the development of methods for the integration of large-scale biomolecular (transcriptomic, proteomic) and clinical data, and their application to complex diseases. For clinical applications, Dr. Trajanoski aims to integrate disparate data sources, including genomic sequences, gene expression data, proteomic data, clinical data, and patient-related information, and to enable queries and analyses across disparate data sources. Using mathematical modeling approaches, Dr. Trajanoski addresses biological questions in cell differentiation and cancer, developing multi-scale models on tumor-immune cell interaction (i.e. models at the subcellular, cellular, and tissue level) to reveal immune signals controlling tumor progression. Sjoerd H. van der Burg Leiden University Medical Center Leiden, Netherlands Sjoerd H. van der Burg leads the experimental cancer immunology and therapy group with about 20 scientists and technicians at the Department of Clinical Oncology at Leiden University Medical Center. Dr. van der Burg’s laboratory focuses on immunomonitoring and immunotherapy of solid tumors. His special research interest is in experimental cancer immunology with an emphasis on local immune response, T-helper cells, regulatory T-cells and cytotoxic T-cells in tumor immunity, as well as in cancer immunotherapy, in particular the development of therapeutic vaccine strategies and adoptive transfer of ex-vivo expanded T-cells. Dr. van der Burg has extensive experience in monitoring human T-cell responses and uses this experience to guide the development of therapeutic vaccines against cancer. He has both initiated and participated in 10 different clinical trials aiming at cancer immunotherapy over the last decade. At present, he co-chairs the CIMT Immunoguiding Program (CIP) which focuses on the harmonization of T-cell assays in Europe. Dr. van der Burg has already published over 100 original research papers on these topics. 17 CIMT | Speakers CIMT | Program Schedule 2012 Speakers Robert H. Vonderheide Laurence Zitvogel Perelman School of Medicine Institut National de la Santé et Recherche Médicale Philadelphia, USA Robert H. Vonderheide is Associate Professor at the Perelman School of Medicine at the University of Pennsylvania and Associate Investigator at the Abramson Family Cancer Research Institute. He is Associate Director for Translational Research at the Abramson Cancer Center. Dr. Vonderheide’s laboratory combines efforts in both basic research and clinical investigation to advance the understanding of tumor immunology and develop novel immunotherapies for cancer. His basic research includes deciphering the immunobiology of a novel genetically engineered mouse model of pancreatic cancer, including the regulation of immune surveillance and the tumor microenvironment by CD40 and other inflammatory pathways. His translational work tests novel vaccines and antibody approaches for the treatment of patients with pancreatic cancer, melanoma, and breast cancer. He has studied telomerase and survivin as tumor rejection antigens, and the immune modulatory capacity of CD40, CTLA-4, and CD25 antibodies. Steffen Walter Program Schedule CIMT 2012 May 23 Day 1 Time: Location: Program: 08:30-9:00 Foyer Welcome Coffee 09:00-9:30 Hall A Welcome Address Paris, France Laurence Zitvogel is Research Director at Institut National de la Santé et Recherche Médicale U1015, in a laboratory located at Institut Gustave Roussy, and the Head of the Center for Clinical Investigations CICBT 507 for vaccine developments at Villejuif, France. She started her scientific career at the University of Pittsburgh, USA, in Michael Lotze’s laboratory. Dr. Zitvogel actively contributed to the field of cancer immunology and immunotherapy, and she brought together basic and translational research, including the design of cancer therapies through combined animal studies and Phase I patient trials. Her expertise is mainly in dendritic cell and innate effector biology and relevance during tumor development as well as exosomebased vaccine designs. She pioneered the concept of immunogenic cell death and showed that chemotherapy, radiotherapy and inhibitors of tyrosine kinase mediate their tumoricidal activity, at least partly through the immune system. 09:30-10:00 Hall A Christoph Huber (CIMT Chairman, Mainz) Doris Ahnen (Rhineland-Palatinate Secretary of Education, Science, Further Education and Culture, Mainz) Opening Lecture Chair: Thomas Wölfel (Mainz, Germany) Pramod K. Srivastava University of Connecticut School of Medicine (Farmington, USA) Cancer immunology: search for specificity Immatics Biotechnologies Tübingen, Germany Steffen Walter is Director and Head of Immunology at Immatics Biotechnologies. Dr. Walter is in charge of the most relevant immunological data (immunomonitoring) from immatics’ phase I-III clinical vaccination trials that allow optimal informed decisions for drug development. This includes the setup of one of the largest international laboratory networks to collect high-quality PBMC samples from multi-centric clinical trials, assessment of T-cell specificity and function as well as state-of-the-art measurement of many cellular biomarkers to define the immune status of a patient. Furthermore, his team pre-clinically assesses the immunogenicity of novel product candidates. Dr. Walter supports and participates in the work of the immunomonitoring community (CIMT-CIP, CIC) that aims to establish urgently needed standardization and harmonization to allow immunomonitoring become a fully accepted clinical trial endpoint. 10:00-12:00 Plenary Session 1 / Tumor Vaccination Chairs: Cedrik Britten (Mainz, Germany), James P. Allison (New York, USA) 10:00-10:30 Tibor Keler Celldex Therapeutic, Inc. (Phillipsburg, USA) Approaches to improving anti-tumor immunity 10:30-11:00 Jay Berzofsky National Cancer Institute – Center for Cancer Research (Bethesda, USA) Therapeutic T-cell epitope cancer vaccines: blockade of negative regulation to enhance vaccine efficacy. 11.00-11:30 James P. Allison Memorial Sloan Kettering Cancer Center (New York, USA) Immune checkpoint blockade: New insights and opportunities 11.30-12:00 Robert Schreiber Washington University School of Medicine (St. Louis, USA) Deconstructing cancer immunoediting 12:00-13:30 18 Hall A Foyer Lunch Break 19 CIMT | Program Schedule CIMT | Program Schedule Program Schedule CIMT 2012 May 23 Day 1 Program Schedule CIMT 2012 May 23 Day 1 Time: Location: Program: Time: Location: Program: 12:00-13:30 Hall B CIP Breakout Session 16:30-17:10 Hall A Feature Lecture Chairs: Cédrik Britten (Mainz, Germany), Cécile Gouttefangeas (Tübingen, Germany) Chair: Carl Figdor (Nijmegen, Netherlands) Jérôme Galon INSERM (Paris, France) The Immunoscore: A new approach for the classification of cancer in the era of immunotherapy Thomas Gajewski Society for Immunotherapy of Cancer (Milwaukee, USA) Innate and adaptive immunity within the tumor microenvironment Cécile Gouttefangeas University of Tübingen (Tübingen, Germany) CIP activities 2011-2012 Sylvia Janetzki Zellnet Consulting, Inc. (Fort Lee, USA) MIATA – introduction of the final guidelines for structured reporting of results from T-cell assays Sine Hadrup Center for Cancer Therapy (Herlev, Denmark) 1st results from the new CIP MHC multimer panel – evaluation of different fluorochromes for MHC multimer staining Nicole Bidmon University Medical Center Mainz (Mainz, Germany) Reference samples to control T-cell assay performance Christian Ottensmeier University of Southampton (Southampton, UK) In-vitro culture of T-cells Steffen Walter Immatics Biotechnologies GmbH (Tübingen, Germany) Objectives of a MDSC proficiency panel 13:30-15:00 Hall A Hall A Late Breakout Session / Immunomics Chairs: Bernhard Korn (Mainz, Germany), Michael Koslowski (Biberach, Germany) 17:15 -17:45 Robert Kralovics CeMM Research Center for Molecular Medicine (Vienna, Austria) Genetic heterogeneity of myeloproliferative disorders and implications for therapy 17:45-18.15 Richard Scheuermann UT Southwestern Medical Center (Dallas, USA) Toward automated analysis of flow cytometry data 18:15 -18:45 Zlatko Trajanoski Innsbruck Medical University (Innsbruck, Austria) Immune score for stratification of patients with colorectal cancer 18:45-19:15 John Castle TRON (Mainz, Germany) Exploiting the mutanome for tumor vaccination 17:30-19:00 Hall C CIMT Members Meeting Plenary Session 2 / Individualized Medicine Chairs: Hans-Georg Rammensee (Tübingen, Germany), Hyam Levitsky (Nutley, USA) 13:30-14:00 Klaus Pantel University Medical Center Hamburg-Eppendorf (Hamburg, Germany) Circulating tumor cells as biomarkers in cancer patients 14:00-14:30 Laurence Zitvogel INSERM (Villejuif, France) The anti-cancer immune response – indispensable for therapeutic success? 14:30-15:00 Kyogo Itoh University School of Medicine (Kurume, Japan) Personalized peptide vaccination for advanced cancer patients 15:00-16:30 Foyer Coffee Break 15:00-16:30 Foyer Poster Session I 20 17.15 -19.15 21 CIMT | Program Schedule CIMT | Program Schedule Program Schedule CIMT 2012 May 24 Day 2 Program Schedule CIMT 2012 May 24 Day 2 Time: Location: Program: Time: Location: Program: 08:30-10:00 Hall A Plenary Session 3 / Antibodies 10:30-12:00 Hall B Short Talk Session II / Improving Immunity Chairs: Özlem Türeci (Mainz, Germany), Martin Glennie (Southampton, UK) Chairs: Thomas Gajewski (Chicago, USA), Robert Vonderheide (Philadelphia, USA) 08:30-9:00 Martin Glennie University of Southampton (Southampton, UK) Optimizing agonistic antibodies to promote anti-cancer responses 10:30-10:45 Patrice R. Douillard (#044) Baxter Innovations GmbH, (Vienna, Austria) Immunotherapeutic potential of fully human anti-macrophage migration inhibitory factor antibodies in different mouse cancer models 09:00-9:30 Tobias Raum Amgen Research (Munich, Germany) How BiTE antibodies can change the game in oncology 10:45-11:00 Laurent Derré (#052) Lausanne University Hospital (CHUV) (Lausanne, Switzerland) CpG-ODN induced upregulation of BTLA mediating selective inhibition of human B cells 09:30-10:00 Mark Sliwkowski Genentech (San Francisco, USA) Multiple approaches to target HER/ErbB receptors in solid tumors 11:00-11:15 Andreas Lundqvist (#060) Karolinska Institutet (Stockholm, Sweden) Zoledronic acid-treated monocytes augment TRAIL-mediated cytotoxicity of human NK cells 11:15 -11:30 Sissela Broos (#063) Lund University (Lund, Sweden) Synergistic augmentation of CD40-mediated activation of antigen-presenting cells by amphiphilic poly(γ-glutamic acid) nanoparticles 11:30-11:45 C. Di Donna (#073) Regina Elena National Cancer Institute (Rome, Italy) Effective chemo/immunotherapy in melanoma patients activates non-canonical AKT + pathway of Melan-A+ tumor-specific CD8 T-cell clones 11:45 -12:00 Mustafa Diken (#079) TRON (Mainz, Germany) mTOR inhibitor Rapamycin enhances the cancer therapeutic potency of naked RNA vaccine 10:00-10:30 North Foyer Coffee Break 10:30-12:00 Hall A Short Talk Session I / Cellular Therapy Chairs: Philipp Beckhove (Heidelberg, Germany), Udo Hartwig (Mainz, Germany) 10:30-10:45 Jenny J. Hong (#002) National Cancer Institute, NIH (Bethesda, USA) Successful treatment of melanoma brain metastases with adoptive cell therapy 10:45-11:00 Cordula Gründer (#003) UMC Utrecht (Utrecht, Netherlands) γ9- and δ2-CDR3 domains regulate functional avidity of T-cells harbouring γ9δ2T-cell receptors 11:00-11:15 Congcong Zhang (#006) Georg-Speyer-Haus (Frankfurt, Germany) Retargeted natural killer cells for adoptive immunotherapy of glioblastoma 11:15 -11:30 Andrea Bloetz (#013) University Medical Center of Johannes Gutenberg University (Mainz, Germany) + Targeting leukemia using allo-HLA-DQ and allo-HLA-DP specific CD4 T-cells 11:30-11:45 Sabine Mall (#021) Klinikum rechts der Isar at Technical University (Munich, Germany) Development of clinically implementable imaging strategies for T-cell receptor-transgenic T-cells 11:45 -12:00 Christian Krug (#042) Universitätsklinikum Erlangen (Erlangen, Germany) Generation of MCSP-specific, MHC-independent T-cells by RNA electroporation at a clinically feasible scale 22 10:30-12:00 Hall C Short Talk Session III / Immunomonitoring Chairs: Sylvia Janetzki (Fort Lee, USA), Marij Welters (Leiden, USA) 10:30-10:45 Anna-Lena Krause (#088) German Cancer Research Center (DKFZ) (Heidelberg, Germany) T-cell recognition of tumor-associated antigens in patients with preinvasive lesions of the breast 10:45 -11:00 Pia Kvistborg (#096) Netherlands Cancer Institute (Amsterdam, Netherlands) Dissection of anti-CTLA4-induced cytotoxic T-cell responses in melanoma 11:00-11:15 Cindy Desmarais (#097) Adaptive Biotechnologies (Seattle, USA) Tracking T-cell clones using high-throughput sequencing of antigen receptor CDR3 chains 11:15 -11:30 Henning Zelba (#100) University Hospital Tübingen (Tübingen, Germany) NY-ESO-1 and Melan-A-reactive T-cells are predictive for the clinical outcome of late-stage melanoma patients 11:30-11:45 Craig Slingluff (#104) University of Virginia (Charlottesville, USA) Activation, dysfunction and retention of antigen-reactive T-cells in the vaccine site microenvironment after multipeptide vaccine in incomplete Freund’s Adjuvant 11:45 -12:00 Steffen Walter (#107) immatics biotechnologies (Tübingen, Germany) IMA910, a novel multi-peptide cancer vaccine for advanced colorectal cancer, induces + + multiple CD8 and CD4 T-cell responses associated with improved survival 23 CIMT | Program Schedule CIMT | Program Schedule Program Schedule CIMT 2012 May 24 Day 2 Program Schedule CIMT 2012 May 24 Day 2 Time: Location: Program: Time: Location: Program: 12:00 - 14:00 North Foyer Lunch Break 17:30 - 18:30 Hall A Keynote Lecture Chair: Christoph Huber (Mainz, Germany) 12:30 - 14:00 Hall B Industry Satellite Symposium I Antonio Lanzavecchia Institute for Research in Biomedicine (Bellinzona, Switzerland) Dissecting the human immune response to pathogens Innovative Strategies for Personalized Cellular Immunotherapy (organized by Miltenyi Biotec) Ignacio Melero, University of Navarra (Pamplona, Spain) Type I dendritic cells in translational research 19:30 - 24:00 A; West and Social Event with Poster Award Ceremony South Foyer sponsored by Renata Stripecke, Hanover Medical School (Hanover, Germany) Next-generation dendritic cells programmed from inside out with lentiviral vectors and clinical perspectives Tobias Feuchtinger, University Children’s Hospital of Tübingen (Tübingen, Germany) + + Polyfunctional CD4 and CD8 T-cell grafts for adoptive T-cell transfer against tumor antigens 14:00 - 16:00 Hall A with a special performance by The Checkpoints Plenary Session 4 / Cellular Therapies Chairs: Pedro Romero (Lausanne, Switzerland), Matthias Theobald (Mainz, Germany) 14:00 - 14:30 Carl June University of Pennsylvania (Philadelphia, USA) Updates with CAR T-cells 14:30 - 15:00 Patrick Hwu MD Anderson Cancer Center (Houston, USA) Rational combinations of targeted therapy and immunotherapy 15:00 - 15:30 Michael Nishimura Loyola University Medical Center (Maywood, USA) TCR gene modified T-cells for adoptive immunotherapy 15:30 - 16:00 Wolfgang Herr University Medical Center Mainz (Mainz, Germany) Toward specific allogeneic T-cell therapy in acute leukemia 16:00 - 17:30 North Foyer Coffee Break 16:00 - 17:30 East Foyer Poster Session II 24 25 CIMT | Program Schedule CIMT | Program Schedule Program Schedule CIMT 2012 May 25 Day 3 Program Schedule CIMT 2012 May 25 Day 3 Time: Location: Program: Time: Location: Program: 08:30-10:30 Hall A Plenary Session 5 / Improving Immunity 11:00-12:15 Hall B Chairs: Ugur Sahin (Mainz, Germany), Cornelius Melief (Leiden, Netherlands) Short Talk Session IV / New Targets, Leads and Biomarkers 08:30-09:00 Shizuo Akira Osaka University (Osaka, Japan) Innate immune responses Chairs: Steffen Walter (Tübingen, Germany), Nadeem Sheikh (Seattle, USA) 09:00-09:30 Sjoerd van der Burg Leiden University Medical Center (Leiden, Netherlands) Evasion of protective HPV-specific T-cell responses 11:00-11:15 Sandra Höfflin (#117) Universitätsklinikum Erlangen (Erlangen, Germany) Targeting mutated and overexpressed tumor antigens in cancer immunotherapy 09:30-10:00 Hansjörg Schild FZI - Research Center Immunology (Mainz, Germany) Mechanisms controlling adaptive immune responses 11:15 -11:30 Sabrina Prommersberger (#118) Universitätsklinikum Erlangen (Erlangen, Germany) Mutated BRAF and NRAS proteins as possible targets for the immunotherapy of melanoma 10:00-10:30 Rienk Offringa German Cancer Research Center (Heidelberg, Germany) Evaluation of therapeutic strategies in a genetically engineered mouse model for melanoma 11:30-11:45 Jochen Greiner (#131) University of Ulm (Ulm, Germany) Epitopes derived from the mutated region of Nucleophosmine 1 (NPM1) induce both + + CD4 and CD8 T-cell responses Coffee Break 11:45 -12:00 Richard Buka (#136) University of Birmingham (Birmingham UK) Lymphoma-specific immunity in healthy individuals and patients targets phosphorylated antigens derived from the cytoplasmic tail of CD19 Plenary Session 6 / Regulatory Research 12:00-12:15 Karina Silina (#139) Latvian Biomedical Research and Study Centre (Riga, Latvia) Identification of a tumour-associated autoantibody signature with high diagnostic value for early detection of gastric cancer 10:30-11:00 11:00-13:30 North Foyer Hall A Chairs: Harpreet Singh (Tübingen, Germany), Ulrich Kalinke (Hanover, Germany) 11:00-11:05 Ulrich Kalinke Twincore (Hanover, Germany) Introduction 11:05-11:30 Cedrik Britten Ribological (Mainz, Germany) RRG classification and regulatory path for APVACs – progress report 11:30-11:55 Ugur Sahin TRON (Mainz, Germany) Exploiting the mutanome for cancer vaccination 12:00-12:30 Samir Khleif NIH (Bethesda, USA) Vaccines targeting mutations in known antigens 12:30-13:00 Peter Bross Food and Drug Administration (Rockville, USA) US regulatory considerations for the development of therapeutic cancer vaccines: an FDA reviewer's perspective 13:00-13:30 Bruno Flamion University of Namur (Namur, Belgium) The EMA approach to personalized medicine: Does it make a difference or should payers decide? 26 11:00-12:15 Hall C Short Talk Session V / Therapeutic Vaccination Chairs: Sebastian Kreiter (Mainz, Germany), Kyogo Itoh (Kurume, Japan) 11:00-11:15 Lukasz Bialkowski (#156) Vrije Universiteit Brussel (Brussels, Belgium) Targeting cancer stem cells by raising cytotoxic T-cell responses against the stemness protein SOX2 11:15 -11:30 Karl-Josef Kallen (#162) CureVac GmbH (Tübingen, Germany) Intradermal immunization with a novel mRNA-based vaccination technology induces strong T- and B-cell responses in phase I/IIa trials in non-small-cell lung cancer (NSCLC) and prostate carcinoma (PCA) 11:30-11:45 Stefanie Mandl (#170) BN Immuno Therapeutics (Mountain View, USA) Active immunotherapy of cancer with PROSTVAC® and MVA-BN®-HER2 demonstrate potent preclinical anti-tumor efficacy 11:45 -12:00 Gennaro Ciliberto (#173) IRCCS Istituto Nazionale Tumori Fondazione G. Pascale (Naples, Italy) A novel minigene scaffold for cancer vaccine applications 12:00-12:15 Gal Cafri (#175) Weizmann Institute of Science (Rehovot, Israel) Tumor immunity conferred by mRNA-transfected dendritic cells expressing bi-functional polypeptides which couple MHC-I presentation to dendritic cell activation 27 CIMT | Program Schedule CIMT | Program Schedule Program Schedule CIMT 2012 May 25 Day 3 Program Schedule CIMT 2012 May 25 Day 3 Time: Location: Program: Time: Location: Program: 12:15-13:30 Hall B Short Talk Session VI / Personalized Medicine 13:30-15:00 North Foyer Lunch Break 13:30-15:00 Hall C Industry Satellite Symposium II Chairs: Stefan Stevanovic (Tübingen, Germany), Sjoerd van der Burg (Leiden, Netherlands) 12:15-12:30 Else Marit Inderberg Suso (#022) Oslo University Hospital-Norwegian Radium Hospital (Oslo, Norway) Adoptive transfer of redirected T-cells targeting a TGFβRII frameshift mutation frequently occuring in microsatellite instable colon cancer 12:30-12.45 Tana Omokoko (#039) TRON (Mainz, Germany) Next-generation sequencing of γδ T-cell receptor repertoires 12.45-13:00 Satoko Matsueda (#089) Kurume University School of Medicine (Kurume, Japan) Antibodies against CTL epitopes from tumor-associated antigens were widely detectable in humans: potential prognostic significance in cancer patients 13:00-13:15 Markus Löffler (#151) University of Tübingen (Tübingen, Germany) Actively personalized multi-peptide vaccination for primary liver cancers – a novel strategy for overcoming residual disease 13:15 -13:30 Jean-Paul Rivals (#196) University Hospital (Lausanne, Switzerland) Correlation of tumor-associated antigens MAGE, NY-ESO-1 and P53 expression with clinical and pathological relationships of patients with oral squamous cell carcinoma Short Talk Session VII / Tumor Biology and Interaction with the Immune System Chairs: Markus Radsak (Mainz, Germany), Mustafa Diken (Mainz, Germany) 12:15 - 12:30 Sibel Mete (#216) University of Zurich (Zurich, Switzerland) Zoledronate nanoparticles repolarize neutrophils in tumor microenvironment to impair growth of tumors 12:30-12:45 Ivan Shevchenko (#184) German Cancer Research Center and University Hospital Mannheim (Heidelberg, Germany) Extracellular adenosine metabolism mediated by myeloid-derived suppressor cells in melanoma and pancreatic cancer 12:45-13.00 Thomas Effert (#185) Johannes Gutenberg University (Mainz, Germany) Development of resistance towards Artesunate in MDAMB-231 human breast cancer cells treatment 13.00-13:15 Cristina Maccalli (#205) San Raffaele Foundation Scientific Institute (Milan, Italy) Immunomodulatory properties of cancer stem cells isolated from human glioblastoma and colorectal cancer 13:15-13:30 Anna I. Hooijkaas (#207) Netherlands Cancer Institute (Amsterdam,Netherlands) Selective BRAF inhibition decreases tumor-resident lymphocyte frequencies in a mouse model of human melanoma 12:15-13:30 28 Hall C (organized by Becton Dickinson) Hinrich Abken University of Cologne (Cologne, Germany) CARs with extraordinary performance: T-cells redirected for an anti-tumor attack 15:00-16:30 Hall A Holger Hoff TRON (Mainz, Germany) Targeting inhibitory phosphatases by ectopic expression of miR181a augments T-cell functionality Plenary Session 7 / Immunoguiding Chairs: Christian Ottensmeier (Southampton, USA), Sjoerd van der Burg (Leiden, Netherlands) 15:00-15:30 Scott Tanner University of Toronto (Toronto, Canada) An introduction to mass cytometry: fundamentals and applications 15:30-16:00 Robert Vonderheide University of Pennsylvania School of Medicine (Philadelphia, USA) Cancer inflammation and immunosurveillance in pancreatic carcinoma in mice and humans 16:00-16:30 Michael Kalos University of Pennsylvania School of Medicine (Philadelphia, USA) Integrated biomarker analyses of T-cell therapy trials 16:30-17:00 Hall A Closing Words Christoph Huber (CIMT Chairman, Mainz) 29 CIMT | Floor Plan CIMT | Program Overview Floor Plan Program Overview D 08:30 - 09:00 G A C B E Day 1 - May 23 Day 2 - May 24 Day 3 - May 25 Welcome Coffee and Addresses Session 3: Antibodies Session 5: Improving Immunity M. Glennie, T. Raum, M. Sliwkowsky 09:00 - 09:30 09:30 - 10:00 S. Akira, S. van der Burg, H. Schild, R. Offringa Opening lecture: P. Srivastava 10:00 - 10:30 Session 1: Tumor Vaccination Coffee Break 10:30 - 11:00 T. Keler, J. Berzovsky, J. Allison, R. Schreiber Short Talk Sessions I-II-III Short Talk Sessions IV-V-VI-VII 11:00 - 11:30 11:30 - 12:00 H F 12:00 - 12:30 Breakout “CIP” 12:30 - 13:00 J. Galon, C. Gouttefangeas, S. Janetzki, S. Hadrup, N. Bidmon, C. Ottensmeier, S.Walter Lunch Break 14:00 - 14:30 Industry Satellite Symposium I I. Melero, R. Stripecke, T. Feuchtinger Session 2: Individualized Medicine K. Pantel, L. Zitvogel, K. Itoh Session 4: Cellular Therapies C. June, P. Hwu, M. Nishimura, W. Herr 14:30 - 15:00 Label: Location: 15:00 - 15:30 Poster Session I 15:30 - 16:00 Hall A B Hall B C Hall C D West Foyer 17:30 - 18:00 E South Foyer 18:00 - 18:30 F Registration G H North Foyer Foyer 16:30 - 17:00 Industry Satellite Symposium II Lunch Break by Becton Dickinson, H. Abken, H. Hoff Session 7: Immunoguiding Coffee & Break S. Tanner, R. Vonderheide, M. Kalos Poster Session II 16:00 - 16:30 A Session 6: Regulatory Research P. Bross, S. Khleif, U. Sahin, U. Kalinke, C. Britten, B. Flamion Lunch Break by Miltenyi Biotec 13:00 - 13:30 13:30 - 14:00 Coffee Break Feature Lecture Coffee Break Closing Words T. Gajewski (until 17:10) 17:00 - 17:30 Late Session Immunomics R. Kralovics, R. Scheuermann, Z. Trajanoski, J. Castle (start 17:15 - 19.15) Keynote Lecture: A. Lanzavecchia 18:30 - 19:00 19:00 - 19:30 19:30 - 20:00 Social Event 20:00 - 24:00 30 31 CIMT | Sponsors, Partners & Supporters CIMT | Industry Exhibitors Sponsors, Partners & Supporters We gratefully acknowledge the recurring support from our sponsors and partners. Partners Industry Exhibitors Sponsors Forschungszentrum Immunologie Mainz Supporters of CIP 32 33 Poster Presentations: Abstracts have been selected for poster presentation in six categories: Cellular Therapy Improving Immunity Immunomonitoring New Targets & New Leads Therapeutic Vaccination 2012 CIMT Poster Award Tumor Biology & Interaction with the Immune System sponsored by Authors are required to be present at both poster sessions May 23, 3 pm - 4:30 pm and May 24, 4 pm - 5:30 pm 34 Forschungszentrum Immunologie Mainz CIMT | Abstract List CIMT | Abstract List Abstract List (001 - 023) Cellular Therapy No.: Short talk: Abstract list (024 - 043) Cellular Therapy Title: No.: 001-New regulatory compliant technology for isolation of cells in Cell Therapy using Dynabeads 002yesSuccessful Treatment of Melanoma Brain Metastases with Adoptive Cell Therapy 003yesγ9- and δ2-CDR3 domains regulate functional avidity of T-cells harbouring γ9δ2T-cell receptors 004-Generation of retroviral vectors encoding WT1-specific TCRs for the transduction of mature T-cells Short talk: Title: 024-In vitro activation of NK cells overcomes resistance of multicellular Ewing sarcoma sphere architecture to NK cell lysis 025-Animal-component free GMP-grade medium for the activation and expansion of T-cells 026-Immune-dominant Wilms’ Tumor 1 (WT1) peptide as target structure for cellular immune therapy in acute myeloid leukemia (AML) 027-Establishment of an efficient transient transfection method for preparation of therapeutics expressing T lymphocytes 005-Clinical grade production of human mesenchymal stem cells 006yesRetargeted Natural Killer Cells for Adoptive Immunotherapy of Glioblastoma 028-In vivo sunitinib pretreatment improves expansion of tumor infiltrating lymphocyte from renal cell carcinoma patients 007-T-cell Activation and Expansion by use of Dynabeads®CD3/CD28 CTS™ for Immunotherapy applications 029-Immunosuppressive effects of antifungal agents on murine CD8 T-cells in vitro and in vivo 008-Melanoma-specific bone marrow memory T-cells exert antitumor activity in ret transgenic mice 030-A novel process technology for automated NK cell culture and enrichment + + + 009-Induction of polyfunctional CD4 and CD8 T-cell responses against NY-ESO-1 for adoptive T-cell transfer in cancer patients 031-A group of T-cell receptors with strict requirements in the hypervariable region, but plasticity in the germline encoded domains, for recognition of HLA-A2/CD20 010-A dual role for rolipram in modulating T-cell responses in murine Graft-versus-Host Disease 032-Analysis and optimization of a p53264-272- tumor antigen-specific single chain TCR in terms of TCR mispairing in human T-cells + 011-Everolimus inhibits CMV specific CD8 T-cells 033-Effect of cord blood regulatory T-cells on natural killer cell differentiation and function + 012-Polyoma-Virus-specific CD8 T-cells for Cellular Immunotherapy + 013yesTargeting leukemia using allo-HLA-DQ and allo-HLA-DP specific CD4 T-cells 034-An optimized single chain p53(264-272)-specific T-cell receptor devoid of ON/OFF target autoimmunity in a humanized mouse model of adoptive T-cell transfer + 014-HLA-DP antigens are major targets of AML-reactive CD4 T-cells isolated from HLA-DR/DQ matched donors in vitro 035-Identification of donor-derived antigen-specific CTLs for clinical application using cysteine modified tetramers + 015-Human AML-reactive CD8 cytotoxic T lymphocyte clones effectively reduce leukemic burden in NSG mice 016-Adoptive lymph node-derived HPV-specific T-cell therapy for cervical cancer 036-Reprogramming T-cells with an optimized Melanoma-specific human single chain T-cell receptor results in substantial tumor cell recognition but also in mispairing with endogenous TCR chains 017-Depletion of naive T-cells using GMP grade CD45RA MicroBeads 037-Targeting dendritic cells with functionalized nanoparticles 018-NK cell subpopulations differ in their tissue specific homing capacity and impact in GVHD prevention 038-CD8 T-cell-specific transfer of TCR genes enhances tumor cell killing 019-rhIL-15 and rhIL-2 Enhance the Growth and Function of TCR Transduced T-cells for Adoptive Immunotherapy 020-Reduced alloreactivity of human memory versus naive CD8 T-cells in vitro as well as in vivo: Defining optimal target-populations for TCR-transfer 021yesDevelopment of clinically implementable imaging strategies for T-cell receptor-transgenic T-cells 022yesAdoptive transfer of redirected T-cells targeting a TGFβRII frameshift mutation frequently occuring in microsatellite instable colon cancer + 023-Donor lymphocyte infusion induces polyspecific CD8 T-cell responses with concurrent molecular remission in AML with NPM1 mutation + 039yesNext Generation Sequencing of γδ T-cell receptor repertoires 040-In vitro “on-target”-reactivity of affinity-modified p53264-272 tumor antigen-specific TCRs retrovirally transduced into human T-cells 041-Cellular and molecular events controlling acquisition of cytotoxic activity by tumour-reactive + CD4 T-cells during melanoma progression and immunotherapy 042yesGeneration of MCSP-specific, MHC-independent T-cells by RNA electroporation at a clinically feasible scale + 043-Reprogramming bulk CD8 and g/d T lymphocytes with a specificity for adenovirus by electroporation of TCR-encoding mRNA * personalized medicine-short talk extra category 36 37 CIMT | Abstract List CIMT | Abstract List Abstract List (044 - 064) Enhancing Immunity No.: Short talk: Abstract List (065 - 086) Enhancing Immunity Title: No.: Short talk: Title: 044yesImmunotherapeutic potential of fully human anti-Macrophage Migration Inhibitory Factor antibodies in different mouse cancer models 065-The Chemotherapeutic Compound 2-Deoxy D-Glucose Prevents Cell Surface Expression of NKG2D Ligands through Inhibition of N-Linked Glycosylation 045-Antibody fusion proteins of cytokines and costimulatory ligands for cancer immunotherapy 066-Direct immunomodulatory effects of zoledronic acid on NK cells in Ewing sarcoma 046-Single-chain bispecific antibodies activate human regulatory T-cells and trigger their suppressive function 067-Enhancement of cellular immune response against tumor cells using PAMPs 047-Immunomodulation of peripheral blood mononuclear cells by PHA and irradiated K562 048-Heterologous adeno-poxvirus combination for immunogenic cancer targeting 068-Optimized human Granzyme B based immunotoxin to circumvent the inhibitory potential of SerpinB9 during cancer therapy 069-CTLA-4 antibodies Tremelimumab and Ipilimumab overcome tumor-mediated immunsuppres sive effects on human dendritic cells 049-Immunotherapeutic synergy between anti-CD137 mAb and intratumoral admistration of a cytopathic Semliki Forest virus encoding IL-12 070-Targeting of Macrophage Galactose-type C-type Lectin (MGL) induces DC signaling and activation 050-Antitumoral responses against liver implanted tumors induced by Semliki Forest virus expressing IL-12 can be potentiated by coadministration of IL-15 071-Exploring the feasibility of future combinatorial approaches of chemotherapy with immuno therapy for melanoma – influence of chemotherapeutic drugs on the functions of immune cells + 051-Tumor-specific CD4 T-cells develop cytotoxic activity and eliminate virus-induced tumor cells in the absence of regulatory T-cells 072-Updated results from a phase 2-3 clinical study in patients with advanced colorectal carcincoma treated with the immunomodulator MGN1703 – the IMPACT study 052yesCpG-ODN induced upregulation of BTLA mediating selective inhibition of human B cells 073yesEffective chemo/immunotherapy in melanoma patients activates non-canonical AKT pathway + of Melan-A+ tumor-specific CD8 T-cell clones 053-Constitutive activation of the NFkB pathways in DC improves their T-cell stimulatory capacity and IL-12p70 secretion + + 054-A concomitant interaction of CD4 T-helper cells, DC, and CD8 T-cells is required for an + effective boosting of tumor antigen-specific CD8 T-cell expansion 055-Non-toxic application of paclitaxel reduces chronic inflammation and abrogates myeloid derived suppressor cell activity in ret transgenic melanoma bearing mice 056-CD86 and IL-12p70 are key players for T helper 1 polarization and NK cell activation by TLR-matured dendritic cells 057-Prestimulation with 2-Hydroxy-Octadecylphosphocholine inhibits the Cytokine Secretion of Monocyte-derived Dendritic Cells matured with Dendrophilin A201 and IFN-γ without Changing their TH1-Polarisation 058-Paclitaxel potentiates endotoxin-induced maturation of human monocyte-derived dendritic cells under serum-free condition 059-The bacterial preparation OK432 induces IL-12p70 secretion in human dendritic cells in a TLR3 dependent manner 060yesZoledronic acid-treated monocytes augment TRAIL-mediated cytotoxicity of human NK cells 061-Activation of the human immune system via Toll-like receptors by the oncolytic parvovirus H-1 and its combination with targeted agents + 062-Virus-specific CD8 T-cells up-regulate PD-1 expression during acute Friend retrovirus infection but are highly cytotoxic and control virus replication 063yesSynergistic augmentation of CD40-mediated activation of antigen-presenting cells by amphiphilic poly(γ-glutamic acid) nanoparticles + 064-Inhibition of tumor immunity by tumor-infiltrating CD4 regulatory T-cells in patients with primary and metastatic liver cancer can be abrogated by soluble GITR-ligand 38 074-New ways to improve the treatment of rectal cancer patients with liver metastases using metronomic regimen of chemotherapy with recombinant inferferon-alpha 075-Combining Gemcitabine and RIG-I signaling for chemoimmunetherapy of pancreatic cancer 076-Immune-complexes formed by intracellular tumor antigens released by chemotherapy and an injected antigen-specific antibody have an adjuvant effect to activate the adoptive immune system against cancer 077-The Role Of Combining Synthetic Imidazoquinoline Toll-like Receptor (TLR) Agonists And GM-CSF Activity For Potentiating Cell Activation In Autologous Cellular Immunotherapy (ACI) 078-Sharply discordant biological properties of synthetic noncoding dsRNA of different size: translational opportunities in cancer 079yesmTOR inhibitor Rapamycin Enhances the Cancer Therapeutic Potency of Naked RNA Vaccine 080-CpG Oligodeoxynucleotides enhances both humoral and cellular immune responses against FMDV in mice 081-Potent Stimulation of the Innate Immune System by Nucleic Acid Based TLR Ligands Encapsulated in Nanoliposomes 082-CpG DNA containing nanoparticles as potential antitumor agents 083-Potentiating the immunostimulatory properties of CpG oligodeoxynucleotides: aiming to develop a better vaccine adjuvant 084-A novel ODN delivery platform: CpG-ODN-loaded exosome nanovesicles 085-Bacteriocin DNA nanocomplexes as immunotherapeutic carriers 086-Alternative approaches to improve immunity against cancer and infectious diseases: development of nucleic acid loaded nanocarrier systems 39 CIMT | Abstract List CIMT | Abstract List Abstract List (087 - 108) Immunomonitoring No.: Short talk: Title: Abstract List (109 - 112) Immunomonitoring No.: Short talk: Title: 087-Divpenia (low TCR diversity) and lymphopenia as prognostic factors of OS in metastatic breast cancer 109-Homing receptor expression by T-cells infiltrating the metastatic melanoma microenvironment and relevance to combination immune therapy 088yesT-cell recognition of tumor-associated antigens in patients with preinvasive lesions of the breast 110-Detection of tumour antigen specific T-cell populations in leukaemia: markers of good prognosis? 089yesAntibodies against CTL epitopes from tumor-associated antigens were widely detectable in humans: potential prognostic significance in cancer patients 111-TransHLA – A Method for determining the HLA genotype from RNA-Seq data 112-Predictive biomarkers for treatment success of the therapeutic renal cell cancer vaccine IMA901 090-Reliable assay for monitoring CMV-specific T-cell immunity following Allogeneic Hematopoietic Cell Transplantation 091-Expression of Foxp3 in Colorectal Cancer but not in Treg Cells Correlates with Disease Progression in Patients with Colorectal Cancer * personalized medicine-short talk extra category 092-Molecular signature of virus-specific T-cell polyfunctionality 093-Activation and frequency of Myeloid Subsets in peripheral blood is associated with clinical outcome in prostate cancer patients treated with Prostate GVAX and ipilimumab + 094-CD8 T-cells specific for peptides encoded by large T and small T antigen from Merkel cell polyomavirus is detected in merkel cell carcinoma patients and not healthy individuals 095-No correlation between spontaneous tumor antigen-specific T-cell and antibody responses in the majority of primary melanoma patients 096yesDissection of anti-CTLA4-induced cytotoxic T-cell responses in melanoma 097yesTracking T-cell clones using high-throughput sequencing of antigen receptorCDR3 chains 098-HLA subtype variation strongly affects MHC multimer-based monitoring of antigen specific CD8 T-cell responses 099-Cancer vaccination with telomerase peptide GV1001: The immune response relates to clinical outcome 100yesNY-ESO-1 and Melan-A-reactive T-cells are predictive for the clinical outcome of late-stage melanoma patients 101-Reference samples to control performance of HLA-peptide multimer staining experiments – First results from a proficiency panel testing 102-Reference Samples as stable controls for T-cell assay 103-Treg Flow Cytometry Staining – Hunting a FOX 104yesActivation, Dysfunction and Retention of Antigen-Reactive T-cells in the Vaccine Site Micro environment after Multipeptide Vaccine in Incomplete Freund’s Adjuvant 105-Myeloid sub-populations are correlated to survival in patients with cervical cancer 106-Quantitative determination of tumor specific Treg in lymphatic compartments of patients 107yesIMA910, a novel multi-peptide cancer vaccine for advanced colorectal cancer, induces multiple + + CD8 and CD4 T-cell responses associated with improved survival 108-Immune Monitoring of Poxvirus based Cancer Immunotherapies 40 41 CIMT | Abstract List CIMT | Abstract List Abstract List (113 - 136) New Targets and Leads No.: Short talk: Abstract List (137 - 143) New Targets and Leads Title: No.: 113-Regression of metastatic melanoma by targeting melanoma stem cells 114-EpCAM-targeting antibodies for the treatment of a murine model of spontaneous gastric cancer 115-Development of a novel modular cell targeting system for immunotherapy of acute myeloid leukemia + 116-HLA-restricted CD4 T-cell epitopes derived from cancer-retina antigen PDE6 alpha as potential tools for T-cell based immunotherapy approaches Short talk: Title: 137-Frequently recognized MHC class II epitopes for an easy generation and detection of EBV + specific CD4 T-cells 138-High throughput in vitro priming of tumor specific T-cells 139yesIdentification of a tumour-associated autoantibody signature with high diagnostic value for early detection of gastric cancer 140-Spontaneous humoral antibody responses against tumor-associated antigens in malignant melanoma patients 117 yes Targeting mutated and overexpressed tumor antigens in cancer immunotherapy 118 yes Mutated BRAF and NRAS proteins as possible targets for the immunotherapy of melanoma 141-A peptide microarray platform with a new robust data analysis package 119-Natural HLA ligands provide novel T-cell epitopes for immunotherapy of ovarian carcinoma 142-Human chorionic gonadotropin exerts immunosuppressive effects in a mouse model of Graft versus-Host disease 120-Identification of new tumor specific HLA-Ligands – Separating tumor and stroma origin 143-Expression and impact of interleukin-22 in human lung cancer 121-HPV16 E6 and E7 T-cell epitope identification by mass spectrometry 122-Identification of NPM-ALK-reactive T-cells in children with NPM-ALK-positive-anaplastic large cell lymphoma (ALCL) * personalized medicine-short talk extra category 123-Attenuation of Lethal Semliki Forest Virus Neurovirulence in Mice by Neuronal microRNA Targeting 124-Siglec-7 and -9 on Natural killer cells and their ligands on tumor cells are novel inhibitory regulators of human NK cell functions in vitro and of tumor cell killing in vivo 125-MELOE-1 contains multiple HLA class II T-cell epitopes eliciting Th1 responses in melanoma patients 126-Identification of hematopoietic minor H antigens using leukemia reactive T-cells and genetic linkage analysis 127-Identification of unique colorectal cancer T-cell antigens by next generation sequencing of somatically mutated genes 128-Identification of lung cancer associated oncoantigens as targets for active immunotherapy 129-Designer host defense peptides for treatment of colorectal carcinoma + 130-Characterization of CD4 T-cell responses specific for novel HLA-DR-restricted epitopes derived from the breast tumor antigen NY-BR-1 + 131yesEpitopes derived from the mutated region of Nucleophosmine 1 (NPM1) induce both CD4 + and CD8 T-cell responses + 132-CD4 T-cells Recognising Human B Lymphoma-Associated Antigens 133-Novel tumor associated antigens for chronic lymphocytic leukemia 134-The Quest for Novel Peptide Vaccines in Renal Cell Carcinoma: Mining the HLA‑Ligandome 135-The HLA class I ligandome of prostate cancer: New targets for peptide-based immunotherapy 136yesLymphoma specific immunity in healthy individuals and patients targets phosphorylated antigens derived from the cytoplasmic tail of CD19 42 43 CIMT | Abstract List CIMT | Abstract List Abstract List (144 - 162) Therapeutic Vaccination No.: Short talk: Title: Abstract List (163 - 179) Therapeutic Vaccination No.: Short talk: Title: 144-Tumor cells infected by Measles virus vaccine induce plasmacytoid dendritic cell (pDC) maturation and tumor antigen cross-presentation 163-Immunological results of a phase 1-2 therapeutic vaccination study by MGN1601 in patients with advanced renal cell carcinoma 145-Use of Oncolytic Rhabdoviruses as Potent Tumour Vaccine Boosters 164-Long Peptides Complexed with A Novel Delivery Sytem CHP Nanogel Leads to the Improved Vaccine-induced Specific Immune Responses with CpG oligo DNA or poly-I:C RNA 146-HLA-A*0201+ plasmacytoid dendritic cells provide a cell-based immunotherapy for melanoma patients 147-Intravaginal immunostimulation after vaccination increase local vaccine-specific CD8 T-cells and tumor regression of genital tumors in mice 148-Characterization of the human CD83 promoter complex for transcriptional targeting of dendritic cells in vivo 149-Stimulation of dendritic cells with vaccine and vaccine-antibody complex and effect on immune response 150-A pilot study of peptide-based vaccines in combination with poly ICLC in patients with WHO grade 2 low-grade glioma 151yesActively personalized multi-peptide vaccination for primary liver cancers – a novel strategy for overcoming residual disease 152-Induction of antigen-specific T and B cell responses in mice with a reconstituted human immune system 153-Vaccines for tumour prevention: Does Indoleamine 2,3-Dioxygenase (IDO) silencing enhance DNA vaccination? 154-DCONE: Next generation off-the-shelf dendritic cell vaccine applicable for a broad range of cancer indications 155-Expansion of polyfunctional antigen-specific T-cells upon stimulation with mRNA electroporated dendritic cells in the presence of immunomodulatory drugs 156yesTargeting Cancer Stem Cells by raising cytotoxic T-cell responses against the stemness protein SOX2 157-Comprehensive preclinical model evaluating a protein-based PRAME specific cancer immuno therapy to fight against PRAME expressing tumors 158-Combining common chemotherapeutic regimens with immunotherapy – assessment of the immunological effects of FOLFOX, FOLFIRI and cisplatin 159-RNAdjuvant®: a novel, highly-potent, RNA-based adjuvant supports induction of balanced immune response (TH1 and TH 2) and anti-tumor activity 165-Preliminary results of a triple peptide escalating dose vaccination Phase I/II clinical trial as consolidation treatment in women affected by ovarian cancer 166-Immune responses against frameshift antigens in microsatellite unstable colorectal cancers 167-Sipuleucel-T product characterization across different disease states of prostate cancer 168-Construction of DNA vaccines expressing the novel tumor antigen neuroplastin: protective efficacy against mammary adenocarcinoma in immunized mice 169-Dendritic-tumor cell hybrids in therapeutic vaccination against advanced neuroblastoma 170yesActive Immunotherapy of Cancer with PROSTVAC® and MVA-BN®-HER2 Demonstrate Potent Preclinical Anti-tumor Efficacy 171-Development of a DC-based therapeutic vaccine for AML patients: Charakterization of GMP-grade TLR-agonist matured 3-day DCs expressing the leukemia-associated antigens WT1 and PRAME 172-Dendritic cell vaccine after induction chemotherapy in patient with metastatic melanoma: prospective randomized single-institution trial 173yesA Novel Minigene Scaffold for Cancer Vaccine Applications 174-Generation of immunogenic MUC1 glycopeptides by DCs primed with microvesicle bound MUC1 tumor associated glycoprotein, but not with the soluble MUC1 175yesTumor immunity conferred by mRNA-transfected dendritic cells expressing bi-functional polypeptides which couple MHC-I presentation to dendritic cell activation 176-A First In Man Phase I Trial Of IMA950 (A Novel Multi-Peptide Vaccine) Plus GM-CSF In Patients With Newly Diagnosed Glioblastoma – Design And Preliminary Results of a Cancer Research UK Study 177-Induction of anti tumor responses against malignant melanoma via antigen targeting in vivo 178-Comparison of clinical grade polarized and standard matured dendritic cells for cancer immunotherapy 179-Investigating the functionality of tumour-infiltrating lymphocytes induced by immunotherapy 160-Dendritic cell vaccination in melanoma patients: mRNA electroporated dendritic cells improves immunological and clinical responses 161-IVAC – Individualized Vaccines for Cancer 162yesIntradermal immunization with a novel mRNA-based vaccination technology induces strong T- and B-cell responses in phase I/IIa trials in non-small-cell lung cancer (NSCLC) and prostate carcinoma (PCA) 44 45 CIMT | Abstract List CIMT | Abstract List Abstract List (200 - 216) Tumor Biology and Interaction with the Immune System Abstract List (180 - 199) Tumor Biology and Interaction with the Immune System No.: Short talk: Title: No.: Short talk: Title: 180-Study of the involvement of the activity of oxygen free radicals in the development of colorectal cancer: chemo-preventive effect of an antioxidant SOD mimetic a Glisodin 200-Helicobacter-induced preneoplastic gastric immunopathology is suppressed by TLR2-activated B cell induced T regulatory-1 cells 181-The effects of ADAM10 and Neprilysin on tumor-induced release of IL-6 and IL-10 201-Investigation and inhibition of tumor immune escape from NKG2D-dependent NK cell cytotoxicity 182-The Immunomodulatory Role of Endogenous Glucocorticoids in Ovarian Cancer 202-Impaired expression of TAP-2 as posttranscriptionally controlled by microRNAs, modulate immune escape mechanisms in esophageal adenocarcinoma 183-Characterization of breast cancer stem cells and their correlation with circulating tumor cells 203-Expression and regulation of arginine transport proteins in human T lymphocytes 184yesExtracellular adenosine metabolism mediated by myeloid derived suppressor cells in melanoma and pancreatic cancer 204-Arginine auxotrophy: tumor growth analysis in a 3D in vitro culture system 185yesDevelopment of Resistance towards Artesunate in MDAMB-231 Human Breast Cancer Cells Treatment 205yesImmunomodulatory properties of cancer stem cells isolated from human glioblastoma and colorectal cancer 186-Characterization of dormant melanoma cells and their interaction with memory CD8 T-cells in ret transgenic mouse melanoma model 206-Radiation-induced gene expression leads to altered immune signaling and migration in glioma-initiating cells 187-Cyclophosphamide-induced myeloid-derived suppressor cells: their functional characterization and modulation by 5-azacytidine and IL-12 207yesSelective BRAF inhibition decreases tumor-resident lymphocyte frequencies in a mouse model of human melanoma 188-TLR3-expressing Tumor Parenchyma and Infiltrating NK Cells Promote Tumor Control in Hepatocellular Carcinoma Patients 208-Synchronous BRAF V600E and MEK inhibition leads to superior control of melanoma by limiting MEK inhibitor induced skin toxicity 189-A novel mitochondria-targeted antioxidant SkQ1: immunoregulatory properties in pancreatic cancer 209-Human skin-derived and lymph node-resident dendritic cell subsets display differential T-cell stimulatory activity and are differentially modulated by primary melanoma tumors and metas tases in the sentinel lymph node 190-B7-H1 in chemo/immune therapy of pancreatic cancer 191-Effect of platinum-containing chemotherapy on tumor micro-environment in gynecological malignancies 210-Clinical implications of immune evasion in microsatellite-unstable colorectal cancer 192-HLA class I and II antigen expression in human bladder cancer 211-Cytokines in bone marrow and peripheral blood of breast cancer patients as the prognostic signs of tumor progression 193-Epigenetic mechanisms underlying IFNγ-induced upregulation of antigen presenting machinery genes in tumor cells 212-Investigation the interferon-alpha as a modifier of epithelial – mesenchymal transition of malignant cells in vitro 194-Hyperthermic intraperitoneal chemotherapy in patients with peritoneal carcinomatosis: Role of heat shock proteins and dissecting effects of hyperthermia 213-Dynamic Capture of Tumor Cell Propagation with Associated Stromal and Immune Responses in CNS Tumor Microenvironment 195-Clinical significance and therapeutic potential of programmed death 1 and programmed death ligand 1 and 2 expression in human colorectal cancer 214-Different tumor suppressors control expression of ULBP2, an innate stress ligand of the activating lymphocyte receptor NKG2D 196yesCorrelation of tumor-associated antigens MAGE, NY-ESO-1 and P53 expression with clinical and pathological relationships of patients with oral squamous cell carcinoma 215-Regulation of natural killer cell development and antitumor immunity by the interleukin 15 system 197-It takes two to tango: MHC-I and Invariant chain in harmony 216yesZoledronate Nanoparticles Repolarize Neutrophils in Tumor Microenvironment to Impair Growth of Tumors 198-Endothelial cells derived from non-malignant tissues as models for tumor vasculature are of limited value 199-Cytotoxic dendritic cells inhibit regulatory T lymphocyte generation 46 * personalized medicine-short talk extra category 47 001 | Cellular Therapy New regulatory compliant technology for isolation of cells in Cell Therapy using Dynabeads® Cellular Therapy Karoline Schjetne, Lars Norderhaug, Grethe Økern, Kerstin Bernstrom, Eli Lien, Berit Grøn, Mark Bonehaydi, Tanja Aarvak Life Technologies, Oslo, Norway Introduction: Cell therapy is experiencing a Conclusion: By using a highly specific detach state of resurgence, driven by a series of positive buffer, both magnetic beads and antibodies can achievements as recently demonstrated in Chronic be removed from the cells after isolation leaving Lymphatic Leukemia (CLL) patients treated with a highly pure cell product. This novel technology autologous redirected T-cells (University of Penn- will represent a regulatory compliant technology sylvania). Purification of cells before administra- that can be implemented into a GMP manufactur- tion into patients is of paramount importance to ing processes for a variety of differenT-cell drugs. ensure efficiency and safety of the treatment. For Dynabeads can be customized for many applica- stem cell therapy, tumorigenicity can be avoided if tions by conjugation of antibodies specific for the the pluripotent undifferentiated cells are removed targeT-cell of your choice. from the stem cell-derived cell drug. To assure pure and safe cell drugs there is a growing need to develop a GMP-complianT-cell isolation technology which enables clinicians to produce cell drugs free of antibodies and magnetic beads prior to infusion into the patients. + Results: CD3 T-cells were isolated by Dynabeads conjugated with a recombinant antibody specific for human CD3. The T-cells were captured by the Dynabeads on a DynaMag™ magnet and unbound CD3 neg cells were removed by washings. Dynabeads were removed from the cells by adding a specific detach buffer to enable a bead- and antibody-free + cell product. The isolated CD3 T-cells were stimulated by Dynabeads CD3/CD28 beads and proliferation was analyzed. Recovery of targeT-cells was 65% (range 36-87) and purity >98% (range 96-99). 51 002 | Cellular Therapy 003 | Cellular Therapy Successful Treatment of Melanoma Brain Metastases with Adoptive Cell Therapy γ9- and δ2-CDR3 domains regulate functional avidity of T-cells harbouring γ9δ2T-cell receptors 1 1 1 1 1 1 1 1 1 1 Jenny J. Hong , Steven A. Rosenberg , Mark E. Dudley , James C. Yang , Donald E. White , 2 1 John A. Butman , Richard M. Sherry Cordula Gründer , Suzanne van Dorp , Samantha Hol , Esther Drent , Kirsten Scholten , 1 1, 2 3 1 Sabine Heijhuurs , Anton Martens , Roland Stong and Jürgen Kuball 1 National Cancer Institute, NIH, Surgery Branch, Bethesda, Maryland, USA 1 Department of Haematology and Immunology, UMC Utrecht, Utrecht, Netherlands The Clinical Center of the NIH, Radiology and Imaging Sciences, Bethesda, Maryland, USA 2 Department of Cell Biology, UMC Utrecht, Utrecht, Netherlands 3 Department of Basic Sciences, Fred Hutchinson Cancer Research Center, Seattle, United States 2 52 Introduction and purpose: Metastatic melanoma to Results: Seventeen of these 26 patients received ACT Immunotherapy with innate immune cells has the brain is a difficult and frequent clinical chal- with TIL. Seven of these patients (41%) achieved a recently evoked a broad interest as a novel treat- within the CDR3 domains of a γ9δ2TCR were iden- lenge. Current systemic treatments for patients complete response in the brain, and six patients ment option for cancer patients. γ9δ2T-cells are an tified, suggesting a thus far underestimated role of with melanoma and brain involvement are limited achieved an overall partial response. In the nine emerging innate cell population with strong anti- δ2-CDR3 in particular in antigen-recognition. This and largely ineffective. Adoptive cell therapy (ACT) patients that received TCR-transduced lympho- tumor reactivity, which makes them a promising knowledge allowed improved tumor control by with a nonmyeloablative preparative regimen cytes, two patients achieved a complete response candidate for immune interventions. γ9δ2T-cell re- using engineered T-cells, not only in vitro, but also using activated lymphocytes and interleukin-2 is in the brain (22%) and one of these two achieved ceptors (TCR) in particular recognize a broad panel in vivo in a humanized mouse model. an experimental approach that has been shown to an overall partial response. One patient developed of tumor cells with high avidity, and are therefore be effective for some patients with metastatic mela- a hemorrhage clinically attractive, since αβT-cells can be effi- noma. The purpose of this study is to determine during the thrombocytopenic phase of therapy and ciently redirected against a variety of tumor cells the objective response rate and response duration had an uneventful metastatectomy. by introducing a γ9δ2TCR. Here we demonstrate of melanoma brain metastases to adoptive cell Conclusion: ACT with a nonmyeloablative prepara- that distinct γ9δ2TCRs mediate different functional therapy (ACT) with autologous antitumor lympho- tive regimen using either TIL- or TCR gene–trans- avidities, and present the concept of combinatorial- cytes plus interleukin-2 following a lymphodeplet- duced cells and interleukin-2 can mediate complete γδTCR-chain-exchange ing preparative regimen. and durable regression of melanoma brain metas- method to create γ9δ2TCRs that mediate strong an- Methods: Between 2000 and 2009, 264 patients tases. This strategy can be used safely in selected ti-tumor-responses. In this way, γ9- and δ2-chains with metastatic melanoma received ACT, consist- patients with metastatic melanoma to the brain. derived from individual γ9δ2T-cell clones are newly tumor-associated subarachnoid (CTE) as an structurally and functionally important residues efficient ing of cyclophosphamide and fludarabine with or combined, allowing the design of g9d2TCRs that without total body irradiation, followed by the infu- mediate a higher functional avidity against a broad sion of autologous tumor-infiltrating lymphocytes tumor cell panel in vitro and in vivo when com- (TIL) or autologous peripheral blood lymphocytes pared to a reference γ9δ2TCR. In addition, we dem- retrovirally transduced to express a T-cell receptor onstrate that this phenomenon is selectively caused (TCR) that recognized the melanocyte differentia- by differences in the CDR3 domains of g9- and d2- tion antigens gp-100 or MART-1. From this group, chain. Accordingly, alanine-scanning-mutations 26 patients were retrospectively identified to have were performed to elucidate important residues had untreated brain metastases and extracranial within the CDR3 sequence and the impact of the disease before receiving ACT. The response rate CDR3 length for optimal g9d2TCR function. While and duration of melanoma brain metastases, as length and sequence seem to both play critical roles well as the overall response rate, response dura- in d2-CDR3, selectively the g9-CDR3 sequence but tion, and survival for these patients, are presented not the length is a crucial factor. To summarize, 53 004 | Cellular Therapy 005 | Cellular Therapy Generation of retroviral vectors encoding WT1-specific TCRs for the transduction of mature T-cells Clinical grade production of human mesenchymal stem cells 1 2 3 1 3 Martina Anzaghe , Sebastian Newrzela , Björn-Philipp Kloke , Ben Eising , Winfried Wels 1 and Peter Bader Somchai Sangkitporn, Siripakorn Sangkitporn, Acharaporn Dumbua, Areerat Sangnoi, Sawitree Duangruang, Supaluk Buasrikaew, Apichat Chotchusri, 1 Goethe University, Hospital for Children and Adolescents III, Division of Stem Cell Transplan tation Frankfurt, Germany Clinical Research Center, Department of Medical Sciences, Nonthaburi, Thailand 2 Goethe University, Senckenbergisches Institut für Pathologie, Frankfurt, Germany 3 Chemotherapeutisches Forschungsinstitut Georg-Speyer-Haus, Frankfurt, Germany 54 WT1 mRNA is highly expressed in over 96 human TCR, the β-chain is combined with its matching Stem cell-based therapies hold tremendous promise ination. Endotoxin level did not over the critical leukemias, including acute myelogenous leuke- α-chain, connected via a P2A-peptide sequence for for the treatment of human diseases. Mesenchymal limit. Resistance to spontaneous transformation mia (AML), acute lymphocytic leukemia (ALL), or bicistronical expression in the gamma-retroviral stem cells (MSCs) are promising candidate cells for into tumor cells was monitored by karyotyping chronic myelogenous leukemia (CML). Thus, WT1 vector MP91mcs-wPRE. We further modified MP91- anticancer agents. They can exhibit a tropism to and maintenance of normal morphology/ pheno- was identified as a prognostic factor and a marker wPRE and inserted a GFP cassette downstream to cancer tissue and may serve as a cellular delivery type after prolongs in-vitro culture. for diagnosis of minimal residual disease (MRD) in a internal ribosomal entrya site (IRES) resulting in vehicle of various clinically relevant anticancer In conclusion, the manufacturing process of human leukemia. Immunogenicity of WT1 protein modified MP91mcs-IRES-GFP-wPRE. TCR-encod- factors. In cellular therapy, MSCs should be pro- clinical grade MSCs was established at the DMSc was demonstrated by humoral and cellular immune ing gamma-retroviral vectors are packaged into duced according to good manufacturing practices stem cell facility. These clinical grade stem cells responses naturally elicited in cancer patients. The replication-deficient retroviral particles in a three- (GMP) and good tissue practices (GTP). The main will become the important tools for physicians to evidence that WT1 is preferentially expressed in a plasmid system with the help of packaging cell line goal of the present study was to establish culture develop the new therapeutic strategies; however, variety of leukemic cells, renal cell carcinoma, lung 293T (HEK). After particle production human T-cell processes for human autologous MSCs expansion the strict regulations during cell processing have cancer, ovarian tumors and malignant mesothelio- line PM1 was transduced and GFP, CD3 and TCR for use in clinical studies. All parts of the processes to be followed in order to guarantee the highest ma, but not in most normal cells suggests that WT1 expression was monitored via flow cytometry. must be defined: the starting bone marrow samples quality and safety for patients. might be an attractive target to develop efficacious The demonstration that cloned TCR genes can and other materials, donor validation, process con- immunotherapy against leukemia or various types be used to produce T lymphocyte populations of trols during the development processes and the of solid tumors. In a previous study we demonstrat- desired specificity offers new opportunities for batch release level. A minimum quality control ed that WT1 peptide-specific T-cells can be generat- antigen specific T-cell therapy and provides basic included microbiological safety (sterility and my- ed from healthy donor volunteers. These WT1 CTL knowledge for design of lentiviral vector systems coplasma), purity (endotoxin assay), identity (flow showed antigen-specifity and cytotoxicity towards such as LeGo vectors or GMP-adapted self-inacti- cytometry), potency (MSC differentiation), total tumor cell lines and peptide-loaded T2 cells. vating (SIN) lentiviral vectors. cell count and viability. In this study we aim to design gamma-retroviral After expansion with the classical media composi- vector(s) encoding WT1-specific TCRs in order to tion consists of a basal medium DMED and 10% transduce mature T-cells. WT1 TCR-transduced FBS for 21-30 days, FASC analysis results showed T-cells will be analysed regarding specifity and that the plastic adherent MSCs were negative for avidity in vitro and in vivo to evaluate clinical feasi- haematopoietic surface markers CD34 and CD45 bility of WT1 TCR-transduced CTL. Hence, we per- and positive for the characteristic markers CD73, formed sequence analysis of TCR-α and -β chains CD90 and CD105. Expanded cells exhibited mul- of CTL clones from two different WT1 peptide tilineage differentiation into osteoblast, adipocyte specifities (WT1p37 and WT1p126). We designed and chondroblast. Cell numbers and cell viability gamma-retroviral-based vectors encoding for WT1 were adequate for clinical use. Microbiological p37 and WT1 p126 specific TCR-α/β chains. Per assays demonstrated the absence of any contam55 006 | Cellular Therapy 007 | Cellular Therapy Retargeted Natural Killer Cells for Adoptive Immunotherapy of Glioblastoma T-cell Activation and Expansion by use of Dynabeads®CD3/ CD28 CTS™ for Immunotherapy applications 1 1 2 1 1 Kurt Schönfeld , Congcong Zhang , Michael Burger , Sabrina Genßler , Christiane Sahm , 1 3 4 5 4 Christian Brendel , Sonja Naundorf , Marcus Odendahl , Ulrike Köhl , Torsten Tonn , 1 2 1 Manuel Grez , Joachim P. Steinbach , Winfried S. Wels 1 Chemotherapeutisches Forschungsinstitut Georg-Speyer-Haus, Frankfurt am Main,Germany 2 Institute for Neurooncology, University Hospital, Frankfurt am Main, Germany 3 EUFETS GmbH, Idar-Oberstein, Germany 4 Med. Faculty, Technische Universität Dresden and German Red Cross Blood Donation Service East, Dresden, Germany 5 Pediatric Hematology and Oncology, University Hospital, Frankfurt am Main, Germany 56 Kerstin Bernstrom, Grethe Okern, Karoline Schjetne, Lars Norderhaug and Tanja Aarvak. LifeTechnologies corp. In addition to primary natural killer (NK) cells diotherapy and chemotherapy with temozolomide. Dynabeads® CD3⁄CD28 CTS™ are developed for ex CAR T-cells has shown to have potent anti tumor continuously growing cytotoxic cell lines such as However, recurrence of GBM is very frequent, vivo isolation, activation, and expansion of human effects and can establish memory in patients with NK-92 are being considered for adoptive cancer and the median survival of glioblastoma patients T-cells for use in various Immunotherapy appli- advanced leukemia. immunotherapy. High cytotoxicity of NK-92 has is only 12 to 15 months. Therefore, more efficient cations. The size of the Dynabeads® is similar Clinical scale cGMP protocols using Dynabeads® been shown against malignanT-cells of hema- treatment modalities are urgently needed, with im- to antigen presenting cells. This combined with CD3⁄CD28 CTS™ are established utilizing bioreac- tologic origin in preclinical studies, and general munotherapy representing a promising alternative conjugation of anti-CD3 and anti-CD28 antibodies tor systems and DynaMag™CTS™ to remove Dy- safety of infusion of NK-92 cells has been estab- to standard therapy. Our ongoing work focuses on enables Dynabeads® CD3⁄CD28 CTS™ to mimic an nabeads® CD3⁄CD28 CTS™ after T-cell expansion lished in phase I clinical trials. To enhance their evaluating the efficacy and feasibility of systemic in vivo antigen presenting cell that provides both that enables the processing of T-cell products > 10 therapeutic utility, we previously generated ge- and intratumoral application of NK-92/5.28.z cells primary and secondary activation signal to the L. Dynabeads® CD3⁄CD28 CTS™ is manufactured netically modified NK-92 variants that express chi- in ErbB2-positive glioblastoma xenograft models in T-cells. The use of Dynabeads® CD3⁄CD28 CTS™ under GMP conditions and a Master File is held at meric antigen receptors (CAR) specific for tumor- vivo as a basis for further development of geneti- has shown to have several advantages over activa- the US Food and Drug Administration. associated surface antigens such as ErbB2 (HER2), cally modified NK cells as an adoptive cellular im- tion methods with anti-CD3 antibodies where only EpCAM, GD2 and CD20. Such CAR were composed munotherapy for glioblastoma patients. a primary activation signal is provided. of a tumor-specific single chain antibody frag- Dynabeads® CD3⁄CD28 CTS™ activates T-cells to ment (scFv) fused via hinge and transmembrane give 100-1000 fold expansion of ex vivo activated domains to intracellular signaling proteins such T-cells within 9-12 days without antigen presenting as CD3 zeta chain or a composite CD28-CD3 zeta cells. The expanded T-cells have properties compa- fusion molecule. For development towards clinical rable to in vivo activated T-cells and express recep- applications, here we generated a lentiviral second tors as CD28, CD27 and CD62L. As such, activation generation CAR construct (5.28.z) with specificity and expansion with Dynabeads® CD3⁄CD28 CTS™ for ErbB2, and established GMP-compliant proto- enables the generation of T-cell products that are of cols for transduction and expansion of NK-92 cells. early memory phenotype associated with long term An ErbB2-specific single cell clone (NK-92/5.28.z) in vivo persistence, survival and effector functions. was isolated, which showed high and selective cy- For activation and expansion of T-cells to gener- totoxicity towards ErbB2-expressing glioblastoma ate gene modified T-cells, the use of Dynabeads® cells and tumor cells of various other origins in CD3⁄CD28 CTS™ enables higher gene transduction vitro, as well as specific tumor homing in murine efficiencies (~60%) as compared to anti-CD3 anti- in vivo models. Glioblastoma multiforme (GBM) bodies (~30%). Dynabeads® CD3⁄CD28 has been is the most common and aggressive intracranial implemented in several clinical gene transfection malignant tumor in humans. Standard therapy for processes for the generation of chimeric antigen GBM includes maximal safe surgical resection, ra- receptor (CAR) modified T-cells. The use of such 57 008 | Cellular Therapy 009 | Cellular Therapy Melanoma-specific bone marrow memory T-cells exert antitumor activity in ret transgenic mice Induction of polyfunctional CD4+ and CD8+ T-cell responses against NY-ESO-1 for adoptive T-cell transfer in cancer patients Anastasia Stemke, Barbara, Roider, Viktor Umansky Simone Kayser , Cristina Boß , Michael Schumm , Vanya Icheva , Stefan Stevanović , Pe1 3 1 1 ter Lang , Hans-Georg Rammensee , Rupert Handgretinger , Tobias Feuchtinger 1 Skin Cancer Unit, German Cancer Research Center and University Hospital Mannheim, Heidelberg, Germany 1 1 3 1 University Children´s Hospital, of Tübingen, Germany 2 Department of Dermatology, University Hospital Tübingen, Germany 3 Department of Immunology, Institute for Cell Biology, University of Tübingen, Germany Metastatic melanoma is a severe disease with a has been demonstrated that PD-L1 expression Adoptive T-cell therapy is a promising option to restimulated with the tumor antigen and enriched high rate of lethality. It is known to be resistant is abundant on many murine and human tumor treat cancer. In contrast to vaccinations, T-cells for based on IFN-γ capture technique. Third, T-cells to current therapies. Since melanoma is immu- cells, myeloid derived suppressor cells and DC. adoptive transfer are generated ex vivo to be re-in- were expanded using autologous feeder cells in the nogenic, the immunotherapy can be a promis- We showed that mature DC generated from BM fused into the recipient. This enables the treatment presence of IL-2, IL-7 and Interleukin-15 (IL-15). ing treatment possibility. Memory T-cells (MTC) precursors expressed high amounts of PD-L1. To of immunocompromized patients and the use of al- T-cell specifity, function and proliferative capacity have abilities to respond quicker to antigens and avoid an impaired T-cell activation we incubated logeneic T-cells to exploit graft versus tumor effects. was analyzed by flow cytometry and cell superna- to release a broader spectrum of cytokines than DC with anti-PD-L1 antibodies for 24 h followed by Transferring T-cells in lymphodepleted hosts post tants were tested in multiplex cytokine analysis. naïve T-cells. In this study, we used the ret trans- the co-culture with T-cells. ELISPOT analysis and stem cell transplantation furthermore offers access The T-cell products showed high numbers of spe- genic mouse melanoma model, which resembles IFN-γ capture assay revealed a higher IFN-γ pro- to homeostatic cytokines and eliminates regulatory cifically IFN-γ and TNF-α the pathological situation of human melanoma in duction and therefore an increased T-cell activation T-cells or myeloid suppressor cells. For sustained and no FOXP3 expressing regulatory T-cells in contrast to transplantation models. We have previ- in vitro when PD-L1 was blocked. Furthermore, an T-cell responses in vivo CD4 T helper (Th) cells are flow cytometry. Multiplex cytokine analysis of cell ously shown that the bone marrow (BM) is a major increased level of CD69 expression was detected on essential. Importantly the Th1 cytokines Interfer- culture supernatants confirmed secretion of IFN-γ site for the persistence of tumor-specific MTC in T-cells 40 h after the co-culture with DC. on-gamma (IFN-γ) and tumor necrosis factor-alpha and TNF-α and furthermore demonstrated secre- cancer patients. In addition, melanoma-specific To determine the distribution of adoptively trans- (TNF-α) do not only have effects in orchestrating tion of other Th1 cytokines and chemokines like MTC were also found in the BM of ret transgenic ferred MTC in the ret transgenic melanoma mouse cytotoxic T-cell responses but themselves mediate IL-2, GM-CSF, CXCL10, CXCL8, and CCL2 but also mice without macroscopic tumors. Therefore, we model we labeled T-cells with the cell proliferation anti tumor effects. the Th2 cytokine IL-5. Both, CD4 and CD8 T-cells isolated CD3 cells from the BM of ret transgen- dye eFlour® 670 (CPD) and adoptively transferred The aim of our study was the set up of a good with an effector memory phenotype proliferated in ic mice with and without visible tumors. In vitro them into recipient mice. We were able to detect manufacturing practice (GMP) conform protocol response to NY-ESO-1. CD107a assays demonstrat- generated BM-derived dendritic cells (DC) from the presence of labeled cells in melanoma lesions that allows the generation of polyclonal CD4 and + + + + T-cells but no IL-10 + + + + ed cytotoxicity of Th1 cells. The T-cell products C57BL/6 non-transgenic mice were pulsed with by flow cytometry. CD8 T-cells specific for tumor associated antigens did not include alloreactive T-cells and specifity tumor lysate or tyrosinase related protein (TRP)- To investigate the antitumor activity of melanoma- from healthy donors that can be applied to immu- against NY-ESO-1 was confirmed by cross stimula- 2-derived peptide followed by the co-culture with specific MTC in vivo we adoptively transferred DC- nocompromized cancer patients in allogeneic set- tion with NY-ESO-1 antigen from different sources. freshly separated T-cells from transgenic mice. The activated MTCinto tumor-bearing mice by an intra- tings. Large scale generation of T-cells specific to In summary GMP-conform generation of NY-ESO-1 MTC activation was analyzed after 40 h by IFN-γ cardiac injection. Upon the adoptive transfer, mice the tumor antigen NY-ESO-1 from healthy donors specific T-cells was established and approved. Al- secretion using ELISPOT and IFN-γ capture assay. showed a significantly longer survival compared to were performed according to current GMP regula- though tumor associated antigens are potential self The expression of the early activation marker CD69 the control group. tions in a GMP facility. antigens, it is possible to induce a functional Th1 was determined by FACS analysis. We suggest that an adoptive transfer of melanoma- The protocol is devided into three steps. It starts response in T-cells from healthy donors. Adoptive It is well known that melanoma microenvironment specific MTC activated with antigen-loaded DC, with a presensitization of peripheral blood derived T-cell therapy against tumor associated antigens is immunosuppressive. One of the suppressive which were pre-treated with anti-PD-L1 antibodies, T-cells with NY-ESO-1 in the presence of Interleu- could have implications for multiple tumor entities mechanisms could be represented by the interac- can enhance an anti-tumor response and therapeu- kin-2 (IL-2) and Interleukin-7 (IL-7) to get a detect- in autologous as well as allogeneic treatment ap- tion between programmed death ligand-1 (PD-L1) tic efficacy in vivo. able population of IFN-γ secreting T-cells in re- proaches. and its receptor programmed death-1 (PD-1). It 58 2 sponse to the tumor antigen. Second, T-cells were 59 010 | Cellular Therapy 011 | Cellular Therapy A dual role for rolipram in modulating T-cell responses in murine Graft-versus-Host Disease Everolimus inhibits CMV specific CD8+ T-cells 1 1 1 1 1 Michael Weber , Pamela Stein , Tobias Bopp , Edgar Schmitt , Hansjörg Schild , 2 Markus P. Radsak 1 Institute for Immunology, Johannes Gutenberg University Medical Center, Mainz, Germany 2 IIIrd Dept. of Medicine, Johannes Gutenberg University Medical Center, Mainz, Germany 1 2 1 1 1 Nan Jin , Romy Zurleit , Anita Schmitt , Georg Malcherek , Michael Schmitt 1 Department of Internal Medicine V, University of Heidelberg, Heidelberg, Germany. 2 Department of Hematology/Oncology, University of Rostock, Rostock, Germany. Graft-versus-host disease (GvHD) is a key contribu- Everolimus is a novel immunosuppressive drug 250 ng/ml inhibited the proliferation and IFNgam- tor to the morbidity and mortality after allogenic which is approved for solid organ transplantation ma secretion of HLA-A2 restricted CMVpp65 spe- hematopoetic stem cell transplantation (HSCT). and recently used off-label for patients after hemat- cific CD8 T-cells after one round of MLPC. The Regulatory Foxp3 CD4 T-cells (Treg) suppress con- opoietic stem cell transplantation (HSCT). Everoli- inhibition was dose-dependent and complete in- ventional T-cell activation and can control GvHD. mus is also useful in reducing cyclosporine-related hibition of the proliferation of CMV specific CD8 We analyzed Treg dependent mechanisms to attenu- nephrotoxicity. As reactivation of cytomegalovirus T-cells was observed within the therapeutic (nM) ate acute GvHD: Irradiated BALB/c mice received (CMV) plays a pivotal role for the outcome of pa- range, comparable to prednisolone, a well studied bone marrow and T-cells from C57BL/6 donors tients after HSCT, we investigated in vitro to which immunosuppressive agent. The frequencies of and developed severe GvHD that was rescued by extent everolimus affects CD8 + + the transfer of donor Treg cells or IL-10 -/- Treg cells. + T-cell responses + + + CD8 CMVtetramer+ T-cells were equal to those specific to CMV. of CD137+CMVtetramer+ T-cells, also comparable Further in vitro studies confirmed that Treg-mediated Peripheral blood mononuclear cells (PBMCs) were in numbers to CMV-specific IFNgamma-producing suppression of alloresponses occurred independent taken from the blood of HLA-A2/CMV seropositive cells in ELISPOT assays. of Treg or DC derived IL-10. Instead Treg communi- healthy volunteers by Ficoll-Hypaque density gra- Everolimus is a potent immunosuppressive drug cated with DCs via gap junctions, resulting in func- dient centrifugation and isolated using MACS® by for the treatment of rejection or graft-versus-host tional inactivation of DC by a metabolic pathway anti-CD8 antibody labeled magnetic beads to get a disease (GVHD) after HSCT. As a note of caution, involving cyclic adenosine monophosphate (cAMP) purified CD8 population. The CD8 cells were then attention must be paid to early detection and pre- that is modulated by the drug rolipram. Rolipram stimulated with HLA-A*0201-restricted epitope from emptive treatment of CMV reactivity in patients suppressed allogenic T-cell activation indirectly CMVpp65 (NLVPMVATV) in a mixed lymphocyte- treated with everolimus as we demonstrate here by enhancing Treg mediated suppression of DC + peptide culture (MLPC). After MLPC for 6 days, CD8 that everolimus strongly hampers CMVpp65 spe- activation and directly by inhibiting responder T-cells were re-stimulated overnight by CMVpp65 cific CD8 T-cells. T-cell proliferation. Consequently, Treg dependent peptides pulsed K562 cells stably transfected with suppression of GvHD was greatly enhanced upon HLA-A02 and analyzed by enzyme-linked immuno- additional rolipram treatment. In conclusion, we spot (ELISPOT) assays and multi-color fluorescence propose that an important pathway of Treg mediat- flow cytometry. ELISPOT assays were used to de- ed control of GvHD is based on a contact dependent termine the frequency of CMV-specific IFNgamma- pathway modulated by cAMP. These data provide producing cells. Cells were stained with anti-CD8 the basis for future concepts to manipulate allo- and anti-CD137 antibodies, as well as CMVpp65 te- genic T-cell responses to prevent GvHD. tramer to detect activated CMV specific CD8 T-cells + + + + by flow cytometry. Adding everolimus at a concentration of 8, 50 or 250 nM corresponding to serum levels of 8, 50 or 60 61 012 | Cellular Therapy 013 | Cellular Therapy Polyoma-Virus-specific CD8+ T-cells for Cellular Immunotherapy Targeting leukemia using allo-HLA-DQ and allo-HLA-DP specific CD4+ T-cells 1 1 3 1 1 1 1 2 1 Jiju Mani , Georg Malcherek , Dominik Schneidawind , Anita Schmitt , Rosaely Casalegno2 2 1 Garduño , Michael Linnebacher , Michael Schmitt Andrea Bloetz , Eva Distler , Elke Schnürer , Felix Schier , Matthias Theobald , 1 Wolfgang Herr 1 Universitätsklinikum Heidelberg, Medizinische Klinik V, Heidelberg, Germany 1 2 Universitätsklinikum Rostock, Medizinische Klinik III, Hämatologie und Onkologie, Rostock, Germany. 3 Department of Medicine, University Medical Center of Johannes Gutenberg University, Mainz, Germany 2 Department of Pediatric Surgery, University Medical Center of Johannes Gutenberg University, Mainz, Germany 3 Universitätsklinikum Ulm, Klinik für Innere Medizin III, Ulm, Germany. One of the major clinical complications in patients new avenues for T-cell immunotherapies with BKV- In allogeneic hematopoietic stem cell transplan- of primary acute myeloid leukemia (AML) blasts, after post hematopoietic stem cell transplantation specific T-cells from healthy donors for patients tation (allo-HSCT) patient and donor are usually fibroblasts (FB) and keratinocytes (KC). IFN-γ se- (HSCT) is the reactivation of viruses including with HC or even PML. Moreover T-cell receptor matched for the HLA class I molecules A/B/C as cretion and cytotoxicity could only be observed for CMV and polyoma viruses like BK virus (BKV), JC cloning strategies and reprogramming of T-cells well as for the HLA class II molecules DRB1 and those targets that carried the HLA-DQ/-DP allele virus (JCV) that may result in hemorrhagic cystitis will enable us to circumvent the problem of donors DQB1. In contrast, the HLA-DPB1 locus is still used for T-cell priming, demonstrating the speci- (HC) and lethal progressive multifocal leukenceph- without detectable polyoma-virus specific T-cells ignored in donor selection. Clinical studies have ficity of this approach. While AML blasts were rec- alopathy (PML), respectively. responses. demonstrated that disparities at HLA-DQB1 and ognized independent of pre-incubating them with + T-cells response distinct HLA-DPB1 alleles do not adversely affect IFN-γ, recognition of FB and KC required IFN-γ towards selected peptides using SIFPEITHI algo- the outcome of allo-HSCT. It has also been shown pre-treatment. The level of reactivity to AML blasts rithm for HLA-A2 binding in a mixed lymphocyte that HLA class II is predominantly expressed on exceeded that to FB and KC, respectively. IFN-γ peptide culture (MLPC). Preliminary results were hematopoietic cells under non-inflammatory con- secretion and cytotoxicity could be blocked by a very promising. By fluorescence-activated cell ditions. Thus CD4 donor T-cells recognizing pa- CD4-specific monoclonal antibody. We further in- sorting (FACS) we identified CD8 T-cells specific tient-derived HLA-DQB1 or permissive HLA-DPB1 vestigated HLA class II expression on hematopoi- for BKV peptide VP1p108- and JCV peptide VP1p100 mismatch alleles may primarily target leukemic etic and non-hematopoietic cells by flow cytometry. in one out of ten normal donors with a comparably First, we evaluated the CD8 + + and hematopoietic cells, while sparing non-hemat- HLA class II was not detected on primary FB, KC, low frequency. CD8 T-cells were shown to prolif- opoietic tissues. We used PBMC of healthy donors and normal kidney cells (each n=10), but was ex- erate, secrete IFNγ and kill targeT-cells in a cross- to generate mature monocyte-derived dendritic pressed at significant levels on primary AML blasts reactive manner. These cells were successfully ex- cells (DC), which underwent transfection with in and B-cell lines (each n=10). Expression levels fol- panded by cycles of restimulation. vitro transcribed RNA coding for single HLA-DQ/- lowed the hierarchy: DP>DR>DQ. Up-regulation of It is our goal to broaden the approach and to com- DP mismatch alleles by electroporation. These HLA class II expression was observed on all cell mence a comprehensive study using pools of over- allo-HLA expressing DC were used to stimulate types after pre-incubation with IFN-γ, but not after + + lapping peptides derived from BKV and JCV capsid autologous naive CD4 CD45RA+ T-cells in mixed addition of TNF-α, IL-1β and IL-6. The approach proteins like VP1, VP2 and VP3 and identify in- lymphocyte reactions (MLR) in vitro (n=6). Rapidly presented here appears suitable for generating al- dividual T-cell responses in an HLA-independent expanding MLR cells showed specific IFN-γ pro- lo-HLA-DQ/-DP specific CD4 T-cell lines that rec- strategy. T-cell specificities include specificities duction upon recognition of allo-HLA-DQ/-DP mol- ognize leukemia cells while presumably sparing for immunodominant epitopes and ideally cover a ecules as demonstrated by lack of immune reactiv- non-hematopoietic cells under non-inflammatory broad range of HLA-haplotypes. ity to autologous DC expressing irrelevant allo-HLA conditions. It may be of potential use in adoptive + 62 rd + Virus-specific CD8 T-cells are expanded and en- II molecules as well as by complete inhibition of immunotherapy of allo-HSCT patients who express riched by streptamer technology or, T-cells are allo-DQ/-DP reactivity using HLA allele-specific single HLA-DQ or permissive HLA-DP mismatch reprogrammed with T-cell receptor specific for antibodies. The allo-HLA-DQ/-DP specific T-cells alleles. polyoma virus BKV and JCV. These strategies open were also analyzed for reactivity to a broad panel 63 014 | Cellular Therapy 015 | Cellular Therapy HLA-DP antigens are major targets of AML-reactive CD4+ Tcells isolated from HLA-DR/DQ matched donors in vitro Human AML-reactive CD8+ cytotoxic T lymphocyte clones effectively reduce leukemic burden in NSG mice Yvonne Eichinger, Eva Distler, Elke Schnürer, Matthias Theobald, Wolfgang Herr Jana Albrecht, Eva Distler, Michaela Frey, Shamsul A. Khan, Matthias Theobald, Wolfgang Herr, Udo F. Hartwig 3rd Dept. of Medicine, Haematology, Internal Oncology & Pneumology, University Medical Centre of Johannes Gutenberg University Mainz, Germany The graft-versus-leukaemia (GvL) effect after allo- alleles. In summary, we demonstrate herein that Specific allogeneic T-cell therapy leading to improved We observed a significant reduction of human geneic haematopoietic stem cell transplantation is AML-reactive CD4 T-cells can be reliably isolated graft-versus-leukemia effects after adoptive transfer CD45+ CD33+ AML blasts in bone marrow of mice mainly mediated by T-cells of donor origin that rec- and expanded from naive precursors of HLA-DR requires efficient in vitro generation of leukemia- engrafted with MZ580-AML one week after trans- ognize HLA-associated antigens on patient-derived and –DQ matched healthy donors. Most of them reactive T-cells and humanized mouse models to fer of CTL clone 5H11 [median percentage of AML leukaemia cells. Previous research has mainly appear to recognize HLA-DP mismatch alleles, in- analyze the anti-leukemic potential of transferred blasts: AML only 1.4%; 5H11 0.3%; Melan A CTL dicating a potentially important role of these alleles cells in vivo. We therefore recently established an 1.2% (n=5). p-values: AML only to 5H11 p=0.016; + focused on CD8 cytotoxic T lymphocytes representing a major part of GvL effector cells. However, + + as targets of the GvL response. immunodeficient NOD/SCID/IL2Rγc null (NSG) mouse 5H11 to Melan A CTL p=0.056; AML only to Melan CD4 T-cells, commonly regarded as helper cells model that allows reliable engraftment of human A CTL p=0.690]. Interestingly, this effect was even of the adaptive immune system, are also capable primary acute myeloid leukemia (AML) blasts, par- more increased in bone marrow, spleen and periph- of executing direct cytolytic activity. This as well ticularly those with high-risk FLT3-ITD mutations. eral blood of recipient mice analyzed four weeks as the virtual absence of HLA class II expression Here, we used these mice to analyze the anti-leuke- post transfer [median percentage of AML blasts in on non-haematopoietic cells under non-inflamma- mia effect and homeostasis of human AML-reactive bone marrow: AML only 87.5%; 5H11 6.4%; Melan tory conditions makes CD4 T-cells also attractive cytotoxic T lymphocyte (CTL) clones in two differ- A CTL 72.4% (n=5). p-values: AML only to 5H11 mediators of the GvL response. Here we sorted ent AML patient/donor models upon adoptive trans- p=0.008; 5H11 to Melan A CTL p=0.008; AML only + + + T-cells from healthy fer. CTLs were generated from naive CD8 T-cells to Melan A CTL p=0.032]. In the second model, donor PBMC by immunomagnetic or flow cytom- of healthy donors by in vitro stimulation with HLA- CTL 1E3 and 5B2, generated against MZ653-AML etry means and stimulated them against primary class I-identical primary AML blasts and a cytokine in a HLA-identical setting and cross-reacting with acute myeloid leukaemia (AML) blasts matched combination including interleukin (IL)-2/7/12/15/21 MZ667-AML, were transferred into mice engrafted for HLA-DR and –DQ but not –DP alleles, reflect- in allogeneic mixed lymphocyte/leukemia cultures with MZ667-AML. Four weeks following T-cell trans- ing the common clinical situation. AML-reactive (Albrecht et al., 2011, Cancer Immunol Immunother). fer, both CTLs significantly reduced the percentage CD4 T-cell populations were analysed for cytokine For AML engraftment, NSG mice (6 to 8 weeks old) of leukemic blasts in bone marrow of these animals secretion, HLA restriction, and T-cell receptor Vβ were sublethally irradiated (150 cGy) and injected when compared to controls. Ex vivo analyses of CTL phenotypically naive CD4 + 5 chain usage. Their ability to lyse targeT-cells was with 5x10 primary AML blasts into the tail vein. To 1E3 and 5B2 re-isolated from spleens one week after measured in 5h chromium-release assays. In 3 ex- achieve 1-3% human leukemic blasts in the murine transfer and restimulated twice in vitro showed per- tensively studied donor/patient models, leukaemia- bone marrow, resembling minimal residual disease, sistent reactivity to AML blasts. Human CD8 CTLs reactive CD4 T-cell clones could be expanded that mice were engrafted for 17 to 24 days, depend- could be detected mainly in bone marrow and spleen were mainly restricted by HLA-DP alleles according ing on AML samples used. Subsequently, 5-10x10 6 to antibody blocking experiments. T-cells showed AML-reactive CTLs cultured for 42 to 56 days were In summary, we show herein that leukemic burden in functional properties of Th1 type cells, producing transfused intravenously three days after the last NSG mice engrafted with primary human AML blasts IFN-γ, TNF-α, but not IL-4 upon AML stimulation. antigen-specific restimulation in vitro. As specificity can be significantly reduced after a single transfu- They lysed primary AML blasts as well as patient- control, AML-engrafted mice receiving Melan A-re- sion of human AML-reactive CTL clones. To further derived EBV-B cells at moderate to strong levels (i.e. active CTLs were included. Mice were supplemented improve this anti-leukemic effect, experiments with up to 100% at effector/target ratio of 60/1). More- with human IL-2, IL7-Fc, and IL-15 in parallel to CTL repeated CTL transfers are currently ongoing. Our + + + one week after transfer. T-cell clones cross-reacted with AML transfer. IL-2 and IL-15 were additionally injected model represents a valuable tool to evaluate efficacy blasts derived from other patients expressing the three days after transfer. AML infiltration in bone and homeostasis of in vitro generated leukemia-re- same single HLA-DP mismatch allele as patienT- marrow, spleen, and peripheral blood was analyzed active CTLs in vivo and will be further optimized to cells used for initial stimulation, suggesting that by flow cytometry one and four weeks after T-cell serve as a general platform for testing patient-tailored these T-cells are directed against disparate HLA-DP transfer. T-cell grafts prior to adoptive transfer into humans. over, CD4 64 3rd Department of Medicine, University Medical Center of Johannes Gutenberg University, Mainz, Germany 65 016 | Cellular Therapy 017 | Cellular Therapy Adoptive lymph node-derived HPV-specific T-cell therapy for cervical cancer Depletion of naive T-cells using GMP grade CD45RA MicroBeads 1 1 1 1 1* Marij Welters , Zohara Aghai , Vanessa van Ham , Sjoerd van der Burg , 2 Mariette van Poelgeest 1 1* 1 2 3 1 D. Teschner , E. Distler , D. Wehler , D. Marandiuc , K. Langeveld , M. Theobald , 1 W. Herr 2 Departments of Clinical Oncology and Gynecology, Leiden University Medical Center, Leiden, Netherlands. 1 Third Department of Medicine, University Medical Center of Johannes Gutenberg University, Mainz, Germany 2 Blood Transfusion Center, University Medical Center of Johannes Gutenberg University, Mainz, Germany 3 Miltenyi Biotec GmbH, Bergisch Gladbach, Germany * Adoptive transfer of tumor-specific T-cells – which the LNMC bulk culture procedure for the TDLN of Alloreactive T-cells are major inducers of graft- subset showed persistent reactivity to cytomegalo- have been isolated from blood or tumor and ex vivo 3 patients resulted in similar results as observed versus-host disease (GvHD) and originate mainly virus, Epstein-Barr virus, candida, and aspergillus expanded before infusion into a patient – is a prom- during the first run. Analyses of the single peptides from naive precursors. The aim of this study is to antigens, which could be blocked by HLA antibod- ising immunotherapeutic approach for the treat- recognized revealed that the expanded population establish a good manufacturing practice (GMP) ies thereby confirming T-cell mediated recognition. ment of cancer. Activation of tumor-specific T-cells comprised a polyclonal HPV16-specific T-cell pop- occurs within the highly specialized microenvi- ulation. There was no overt expansion of CD25 - hi + ronment of tumor draining lymph nodes (TDLN). Foxp3 T-cells in the LNMC bulk cultures. Overall, Previously, we have found that TDLN harbor an- HPV-specific CD4 T-cells were present in all, but + + + - T-cells Alloreactivity of the CD45RA fraction and the un- from donor lymphocyte infusion (DLI) products separated leukapheresis were analyzed in alloge- as a new approach of primary GvHD prophylax- neic mixed lymphocyte reaction (MLR) assays. is. Leukapheresis products from healthy donors Even in clinically inapplicable HLA mismatch set- procedure for depleting naive CD45RA + tigen-specific T-cells. Therefore, TDLN may be an one LNMC bulk cultures; CD8 T-cell responses in (n=6) were separated under clean room conditions tings (10 out of 10), the number of alloreactive CD8 attractive source for usage in adoptive cell therapy. 2 cultures. using novel CliniMACS® CD45RA MicroBeads into T-cells was strongly (around 1-log) reduced upon + - The objectives of the study were to isolate, char- In conclusion, TDLN represent a rich source of pol- CD45RA and CD45RA cells during a 4-hour pro- acterize, and optimally expand human papilloma- yclonal HPV16 E6- and E7-specific T-cells, which cedure. Two fractions (i.e. unseparated, CD45RA ) work using single HLA-mismatch antigens had virus (HPV)-specific T-cells derived from tumor- can be expanded under GMP conditions for use in were frozen for subsequent analyses on phenotype shown significant reduction of alloreactivity in the draining lymph node mononuclear cells (LNMC) future trials of adoptive immunotherapy in patients and function. Flow cytometric assays showed that CD45RA subset also for CD4 T-cells, alloreactive for the treatment of patients with HPV16+ end- with cervical cancer. depletion by CD45RA beads eliminated >99.9% of CD4 precursors appeared at similar numbers in - + cells (median 4.4 log depletion, range stage cervical cancer by the adoptive transfer of CD45RA these autologous tumor-specific T-cells. 3.4 - 4.7). The CD45RA subset contained a higher - + CD45RA depletion. While our previous in vitro - + + both fractions tested in this study when applying 10 out of 10 mismatch MLR. We concluded that in + For this purpose LNMC were isolated from TDLN proportion of CD4 T-cells than the untouched vitro depletion of CD45RA cells from entire leu- during radical surgery in patients with cervical leukapheresis (median 17.5 vs. 11.6 % in separat- kapheresis products is feasible and highly efficient cancer. The LNMC were stimulated with HPV16 + ed viable cells after thawing). In contrast, CD8 using CliniMACS® CD45RA MicroBeads under E6 and E7 clinical-grade long overlapping peptides T-cells and CD4 CD25 Foxp3 regulatory T-cells clean room conditions. The CD45RA target frac- and clinical-grade available recombinant human were decreased in the CD45RA fraction (6.8 vs. - tion is enriched for memory T-cells and contains IL-2 for three weeks. Specificity was studied by + + + + + 13.9% and 1.3 vs. 1.8%). CD16 CD56 NK cells and + - + higher proportions of CD4 T-cells, monocytes proliferation assay, multiparameter flow cytometry, CD19 B cells were almost completely depleted by and granulocytes compared to original leukapher- FoxP3 staining, and cytokine analysis in superna- CD45RA beads (0.1 vs. 7.7% and 0 vs. 13.9%, re- esis. In contrast, CD45RA depletion decreases the + numbers of CD8 T-cells as well as NK cells, B cells So far LNMC from 11 patients were studied. The - granulocytes were enriched in the CD45RA frac- and regulatory T-cells to various degrees. T-cell re- optimal expansion of LNMC cultured with IL-2 re- tion (40.9 vs. 23.1% and 7.9 vs. 1.6%). CD4 and + activity to pathogens appears to be preserved in tant obtained at day 2 of the proliferation assay. 66 both authors contributed equally spectively), whereas CD14+ monocytes and CD15 + + - sulted in 30-50 fold increase in cell numbers in 3 CD8 T-cells in the CD45RA- subset were entirely the CD45RA fraction. Notably, CD45RA depletion weeks. Almost all cultures showed expansion of CD45RO-positive and showed very low expression results in the reduction of T-cell mediated alloreac- HPV16-specific T-cells as measured by IFN-gamma of CD62L and CCR7 as well as intermediate ex- tivity, with apparently stronger efficacy in the CD8 production in the proliferation assay and multipa- pression of CD27 and CD28, indicating a memory compared to the CD4 subset. rameter flow cytometry assay. A complete repeat of - phenotype. In IFN-γ ELISpot assays, the CD45RA 67 018 | Cellular Therapy 019 | Cellular Therapy NK cell subpopulations differ in their tissue specific homing capacity and impact in GVHD prevention rhIL-15 and rhIL-2 Enhance the Growth and Function of TCR Transduced T-cells for Adoptive Immunotherapy 1 1 1 1 1 1 2 1 3 3 3 Kathrin Meinhardt , Ruth Bauer , Irena Kroeger , Julia Schneider , Franziska Ganss , 2 3 1 1 Diana Dudziak , Michael Rehli , Andreas Mackensen , Evelyn Ullrich Gina Scurti , Mingli Li , Kelly Moxley , Andre Roy , Heather Embree , Boro Dropulic , 4 Michael Nishimura 1 Department of Internal Medicine 5, Hematology and Oncology, University of Erlangen-Nürnberg, Erlangen, Germany 1 Loyola University Chicago, Oncology Institute, Cardinal Bernardin Cancer Center, Maywood, IL, USA 2 Department of Dermatology, University Hospital of Erlangen, Erlangen, Germany 2 3 Department of Hematology & Oncology, University Hospital of Regensburg, Regensburg, Germany Medical University of South Carolina, Department of Surgery, Center for Cellular Therapy, Charleston, SC, USA 3 Lentigen Corporation, Gaithersburg, MD, USA 4 Loyola University Medical Center, Department of Surgery, Oncology Institute, Cardinal Bernardin Cancer Center, Maywood, IL, USA Clinical studies exploiting the impact of Natural + Infusion of TCR gene modified T-cells for the treat- sufficienT-cell numbers required for patient treat- killer (NK) cells during hematopoietic stem cell plantation in vivo. Interestingly, CD11b NK cells ment of melanoma has shown promise in recent ment. Additional culture conditions are being in- transplantation (HSCT) have provided promis- migrate to the GVHD target organs, whereas CD27 + years. However, clinical responses are not com- vestigated to further enhance the culture process of ing results. NK cells are a promising tool for cell NK cells preferentially home to the bone marrow. parable to responses obtained when using tumor transduced T-cells for the purpose of gene modified therapy because of their capacity to lyse tumor cells Finally, we investigated the role of distinct NK cell infiltrating lymphocytes (TIL). We hypothesize T-cell based immunotherapies. without prior activation and their influence on the subpopulations in the development of GVHD in the transduction, culturing and expansion of TCR innate as well as the adaptive immunity. It is known a fully MHC mismatched HSCT mouse model. In transduced T-cells in vitro lead to different charac- that NK cells are a heterogeneous population and summary, our comparative study outlines that only teristics than those found in TIL. Therefore there is can be divided into functionally distinct NK cell the CD11b NK cells that migrate to the peripheral a need to improve upon current culture methods of subpopulations. Murine NK cells can be separat- GVHD target organs and provide the most efficient transduced T-cells which would allow for optimal ed along their expression of CD27 and CD11b and cytolytic capacity provide GVHD protection. These function and growth required for large scale im- CD117 (c-kit). However, the functional relevance of new insights are highly relevant for the selection munotherapy. In an effort to improve upon these the distinct NK subsets in graft-versus-host-disease of the optimal NK cell preparation in the field of culture methods, we determined if adding rhIL-15 (GVHD) has not been investigated in detail so far. cellular therapy. to the culture media enhanced growth and/or func- + We have established different protocols for isola- tion of the TCR transduced T-cells. tion and expansion of murine NK cell subpopula- TCR transduced T-cells from multiple donors were tions. These NK subsets were further analyzed in cultured under several different cytokine condi- vitro and in vivo in an allogeneic murine GVHD tions including rhIL-2 at 300IU/mL, rhIL-15 at model. The four different NK cell subsets provide 100ng/mL or a combination of both at previously differences in their genomic, phenotypic and func- stated concentrations. The cells were transduced, tional properties. Data clearly demonstrate that cultured and rapidly expanded for a total of approx- + CD11b NK cells express multiple genes of cyto- imately 21 days. Cells were analyzed throughout toxic pathways and develop the highest tumorlytic the process for growth, function, phenotype and capacity. We observed up to 60% tumor lysis by TCR expression for each of the culture conditions. - + CD27 CD11b + NK cells compared to 40-45% by + + - CD27 CD11b , about 25% by CD27 CD11b and + 10% by c-kit CD11b- NK cells at an effector-target + 68 ent sorted NK cell subsets in bone marrow trans- The results found the cultures which contained rhIL-15 had a higher production of IFN-γ and greater TCR expression than the culture conditions which ratio of 5:1. Interestingly, CD27 NK cells provided contained rhIL-2 alone. The use of both rhIL-2 and the highest IFN-γ production upon incubation with rhIL-15 together in the culture not only enhanced tumor cells and/or IL-2. We further analyzed the the function and TCR expression but optimized the migratory capacity and tissue homing of the differ- growth of the transduced T-cells which provided 69 020 | Cellular Therapy 021 | Cellular Therapy Reduced alloreactivity of human memory versus naive CD8 T-cells in vitro as well as in vivo: Defining optimal target-populations for TCR-transfer Development of clinically implementable imaging strategies for T-cell receptor-transgenic T-cells Sebastian Klobuch, Maria Sommer, Matthias Theobald, Ralf Georg Meyer, Wolfgang Herr, Simone Thomas Sabine Mall , Calogero D’Alessandria , Sybille Reeder , Annette Frank , Iina Laitinen 3 3 2 1 1 Michaela Aichler , Axel Walch , Markus Schwaiger , Christian Peschel , Angela Krackhardt Department of Medicine, Hematology, Oncology, and Pneumology, University Medical Center of the Johannes Gutenberg University, Mainz, Germany 1 Medizinische Klinik III, Klinikum rechts der Isar, Technical University Munich, Germany 2 Nuklearmedizinische Klinik und Poliklinik, Technical Universtiy Munich, Germany 3 Resarch unit Analytical pathology, Helmholtz Zentrum München, Germany 70 1 2 2 2 2 Adoptive transfer of human T lymphocytes is a CD8 T-cells of naive phenotype. To investigate the Transfer of T lymphocytes genetically modified using flow cytometry and immunohistochemistry promising strategy for treating viral diseases and relevance of these findings for a clinical application, with tumor-antigen specific T-cell receptors (TCR) we could detect a stable engraftment of activated cancers. However, antigen-specific T-cells cannot we used a mouse model that allows the analysis of is an upcoming therapy for cancer treatment. human peripheral blood mononuclear cells (PBMC) be generated in every case due to the absence of T-cell alloreactivity directed against human hemat- However, clinical trials showed that anti-cancer in sublethal irradiated Nod/SCID mice after intra- specific memory T-cells in individual patients or opoiesis. For this, we reconstituted NOD/SCID/IL- efficacy of engineered T-lymphocytes needs to be peritoneal injection. Efficacy of engraftment could null + donors. Grafting T lymphocytes with antigen-spe- 2Rgc (NSG) mice with human CD34 stem cells further improved. Better surveillance of adoptively be enhanced by injection of Interleukin-15. cific T-cell receptors (TCR) allows the redirection and adoptively transferred them with naïve and transferred T-cells in patients requires non-invasive To monitor TCR-transduced PBMCs in vivo, we of non-reactive T-cells into tumor- or virus-specific memory CD8 T-cell populations previously stimu- and sensitive cell-tracking technologies. High reso- took advantage of the murinzation of respective effector T-cells for a broad range of antigens. One lated againsT-cells of the stem cell donor. In line lution small animal imaging systems are now in TCR and used approach for transfer of TCR is the electroporation with the in vitro data, TN cells mediated stronger widespread use, but not all are suitable for clinical anti-murine TCR antibody for PET imaging. After of human T lymphocytes with in vitro transcribed alloreactivity toward donor hematopoiesis than TM translation. Thus, we aimed to develop a pre-clini- radioiodination, we could detect specific binding mRNA, which results in potent effector functions to cells did. This was shown by a significant decrease cal in vivo imaging model to monitor and evaluate to TCR-transduced PBMCs in vitro while viability + 125 Iodine for radioiodination of an specific targets for up to one week. Due to the tran- of human CD45 hematopoietic cells and B-cells in the efficacy and safety of selected TCR candidates. and functionality of T-cells remained unaffected. sient expression of the introduced RNA, a potential spleen and bone marrow of the mice. Moreover, in We have previously isolated several allo- and au- In vivo PET imaging of human TCR-transduced study protocol would have to include the weekly vivo proliferation of adoptively transferred T-cells torestricted TCR specifically recognizing endog- PBMC engrafted into tumor bearing Nod/SCID mice administration of TCR redirected T-cells. However, was mainly detected in mice treated with TN cells enously presented peptides derived from diverse using in an allogeneic setting this approach might be as measured by BrdU incorporation. tumor associated antigens presented by MHC class enhanced signal at the tumor site corresponding to hampered by the induction of serious graft-versus- Our data show that human memory CD8 T-cell pop- I or class II molecules. Transduction of effector detection of human T-cells within the tumor. host reactivity through the repeated transfer of ulations mediate decreased alloreactivity in vitro as T-cells with these TCR resulted in recognition of Taken together, we developed a non- invasive polyclonal donor T-cells. Considering these limita- well as in vivo. This observation along with strong hematopoietic and solid tumor cells in vitro. To imaging model by tracking specifically human tions, we generated TCR transfected naïve (TN) and effector function upon TCR transfer makes memory establish a tumor model suitable to test adoptive TCR-engineered lymphocytes for further analysis memory (TM) CD8 T-cell populations, using a CM- CD8 T-cells promising tools for adoptive immuno- immunotherapy using these TCR, non-obese dia- of the efficacy of tumor-reactive TCRs in vivo. Vpp65-specific TCR as a model antigen receptor. therapy. betic/ severe combined immunodeficiency (Nod/ This model will be useful to monitor adoptive Although both naive and memory T-cell subsets SCID) mice were inoculated intraperitoneally with transfer of transgenic T-cells in mice and potential- showed comparable level of TCR expression upon a Burkitt´s lymphoma cell line (BJAB). To use one ly humans and therefore giving important informa- RNA transfection, CD8 TM cells mediated superior model for different TCR BJAB cells were eventu- tion for further optimization of immunotherapeutic cytotoxicity against CMV-infected targets. In addi- ally transduced with the respective tumor associ- approaches. tion, we analyzed alloreactivity of CD8 TN and TM ated antigen or MHC restriction elements. Stable subsets against HLA-mismatched EBV-transformed tumor development was monitored by positron B-cells in IFNγ ELIspot and cytotoxicity assays. As emission tomography/computer tomography (PET/ expected, alloreactivity was mainly mediated by CT) using 2-[ F]-fluorodeoxyglucose. Furthermore, 124 I-labeled monoclonal antibody showed an 18 71 022 | Cellular Therapy 023 | Cellular Therapy Adoptive transfer of redirected T-cells targeting a TGFβRII frameshift mutation frequently occuring in microsatellite instable colon cancer Donor lymphocyte infusion induces polyspecific CD8+ T-cell responses with concurrent molecular remission in AML with NPM1 mutation 1 1 1 1 1 1 1 1 1 Else M Inderberg Suso , Sébastien Wälchli , Marit R. Myhre , Weiwen Yang , 1 1 2 2 1 Sissel Trachsel , Johanna Olweus , Meng Yu , Gunnar Kvalheim , Gustav Gaudernack Susanne Hofmann , Marlies Götz , Cornelia Herbst , Vanessa Schneider , Lu Zhang , Don1 1 2 1 ald Bunjes , Hartmut Döhner , Markus Wiesneth , Jochen Greiner 1 Section for Immunology 1 Department of Internal Medicine III, University of Ulm, Germany Section for Cell Therapy, Oslo University Hospital-Norwegian Radium Hospital, Oslo, Norway 2 Institute of Clinical Transfusion Medicine, University of Ulm, 89081 Ulm, Germany 2 Adoptive transfer of genetically engineered T-cells lines harbouring the mutation. Transient TCR ex- Delayed donor lymphocyte infusion (DLI) already Survivin, RHAMM, Proteinase 3 and WT-1. offers great opportunities in cancer immunothera- pression may also be a safer alternative compared plays a key role in supporting the graft-versus- CD8 py. However, recent findings, both in the clinic and with stable gene transfer for the first evaluation tumor effect after allogeneic hematopoietic stem P300, Proteinase 3, Survivin and WT-1 were detect- in pre-clinical mouse models, indicate that careful of a novel TCR in the clinic, but requires multiple cell transplantation (HSCT) although the potency ed in blood samples after preemptive DLI but not in consideration of the target antigen should be made T-cell infusions to compensate for the short-lasting of DLI differs for each disease entitiy. The graft- samples before DLI. In parallel, former detectable to avoid on-target toxicity. transgene expression. versus-leukemia (GvL)-effect observed after DLI NPM1 Safer targets for such T-cell therapy may therefore A pilot study in a murine model of MSI+ colorec- is based on the CTL-mediated immunity which is patient achieved molecular complete remission – be mutated proteins such as frequently occurring tal cancer indicated that the colon cancer cell line reactive against minor histocompatibility antigens and former mixed chimerism became complete frameshift mutations resulting in polypeptides HCT-116 engrafted well and adoptively transferred (mHAg). To date, the role of leukemia-associated after DLI. which are not otherwise available for antigen pro- redirected T-cells homed to the tumour. Further antigens (LAAs) in GvL is not clear. Here, we could demonstrate for the first time poly- cessing and thus truly tumour specific. The exqui- studies are ongoing to investigate the in vivo anti- We therefore analysed peripheral blood of a specific cytotoxic CD8 site tumour specificity of such mutation also avoids tumour efficacy and will be reported. 57-year old woman with AML with NPM1 muta- several known LAAs in a patient with AML T-cell responses against NPM1-P#1, -P#3, mut transcripts were no longer traceable – the + T-cell responses against the problem of low affinity TcRs due to central tion (NPM1 ) who developed molecular relapse with NPM1mut after preemptive DLI in molecu- tolerance. One such example is the transforming without detection of myeloid blasts in the peripher- lar relapse. Interestingly, the immune responses growth factor β Receptor II (TGFβRII) frameshift al blood and bone marrow at d+171 after allo-HSCT against LAAs were associated with MRD negativ- mutation found in hereditary non-polyposis colo- and received preemptive DLI at d+ 260. In parallel ity. Whether specific cytotoxic T-cell responses rectal cancers (HNPCC) and around 15% of spo- to the molecular relapse, chimerism continuously against epitopes derived from the NPM1 radic colorectal and gastric cancers displaying mi- decreased to 60 % in the polymorphonuclear and 75 or the polyspecificity of the cytotoxic T-cells against crosatellite instability (MSI). The -1A mutation in % in the mononuclear cell fraction. Blood samples several LAAs are decisive in the elimination of the an adenine stretch of the TGFβRII gene gives rise to were taken before and after DLI and investigated myeloid blasts with NPM1 immunogenic peptides which have previously been for specific T-cell responses against several LAAs mined in a larger cohort of patients. All in all it is used for vaccination of MSI+ colorectal cancer pa- for which cytotoxic T-cell responses were already of interest to perform preemptive DLI in patients tients in a Phase I clinical trial. In one of these described. In addition, the immune status of the with molecular relapse systematically. In addition, patients, we identified and cloned a novel HLA-A2- patient was determined by measuring the counts boostering of T-cells against specific LAAs could restricted TGFβRII frameshift mutation-specific of CD8 and CD4 T-cells as well as B-cells in the possibly be an approach to enhance GvL-effect T-cell receptor (TCR) from a CD8-/CD4- CTL clone. peripheral blood at several time points. To test spe- with reducing GvHD-effect at the same time, but Electroporation of mRNA encoding the TCR into cific CD8 T-cell responses, ELISpot analysis for in- the most suitable LAA or combination of LAAs for polyclonal, in vitro expanded human T-cells terferon gamma and granzyme B were perfomed. each disease entitiy still has to be investigated. + 72 mut + + + + + mut showed that both CD8 and CD4 T-cells express- Two epitopes derived from the NPM1 ing the TCR were functional following recognition (NPM1-P#1 and –P#3) and PRAME (P300 and P435) of peptide-loaded targets and colon carcinoma cell were tested as well as one epitope obtained from mut mut peptide remains to be deter- peptide 73 024 | Cellular Therapy 025 | Cellular Therapy In vitro activation of NK cells overcomes resistance of multi cellular Ewing sarcoma sphere architecture to NK cell lysis Animal-component free GMP-grade medium for the activation and expansion of T-cells 1 1 1 1 Sareetha Kailayangiri , Katharina Leuchte , Bianca Altvater , Simeon Hoffschlag , Jutta 1 1 1 1 1 Meltzer , Sibylle Pscherer , Andrea Luecke , Jenny Potratz , Martina Ahlmann , Heribert 1 1 Juergens , Claudia Rossig Ulrike Kolrep, Nadine Mockel-Tenbrinck, Anne Richter, Hermann Bohnenkamp, Mario Assenmacher, Uwe Odenthal, Veit Bergendahl, and Melanie Fahrendorff Miltenyi Biotec GmbH, Research & Development, Bergisch-Gladbach, Germany 1 Department of Pediatric Hematology and Oncology, University Children´s Hospital Muenster, Muenster, Germany 74 Disseminated Ewing sarcoma has remained fatal in spheres remained more resistant. However, among Therapeutic applications of T-cells in immuno- recovery and background stimulation compared to most patients despite advanced combinatorial treat- primary tumor cell cultures, consistent differences therapy have recently gained momentum with the the use of a standard basal-medium supplemented ment strategies. Relapses occurring after good initial in chemosensitivity were not observed between the promising results in adoptive transfer of antigen- with 10% human AB-serum. For the automation response to chemotherapy are caused by residual two culture systems. Side populations (SP) deter- specific T-cells for infectious complications after of such complex procedures, a new cell processing cells capable to reinitiate and sustain tumor growth. mined by Hoechst dye exclusion and postulated to allogeneic stem cell or solid organ transplantation device was developed. All steps for the CCS pro- Targeting of these residual cells by cellular immu- be enriched for tumor initiating cells, were uni- or for immunotherapy of malignant diseases. Ac- cessing performed in this fully automated device, notherapy may sustain remission and improve the formly absent in monolayers but could be identified tivation and expansion of these cells for clinical in a closed system under sterile conditions. outcome. Specifically, activated NK cells have shown in three of four VH-64 sphere cultures. However, application under controlled conditions requires In conclusion, the newly developed GMP-grade, promising anti-cancer activity in Ewing sarcoma. To tumor cells resuspended from spheres did not form GMP-grade reagents including appropriate antibod- serum and animal-component-free T-cell medium explore the value of immunological treatment ap- subcutaneous tumors in immunodeficient (NOD/ ies, cytokines and media. For these standardized, demonstrated high lot-to-lot consistency and was proaches preclinical models are needed that mimic scid) mice at higher efficiencies than monolayer reproducible cell cultivation procedures and ex superior in its performance to other commercially the anchorage-independent, multicellular growth of cultures, arguing against higher tumorigenicity of vivo differentiation, a new serum-free, GMP-grade available serum-free media. The new medium can Ewing sarcoma micrometastases. sphere-cultured cells. medium (TexMACS GMP Medium) for clinical use be used to replace human AB-serum supplementa- Here, we generated Ewing sarcoma spheres from Long-term coincubation of in vitro activated al- has been developed. High lot-to-lot consistency tion for the clinical manufacturing of T-cells result- four established cell lines (VH-64, TC-32, TC-71, logeneic NK cells with VH-64 spheres resulted in has been achieved by eliminating protein com- ing in easier handling and higher consistency. A4573,) as well as from three tumor cell cultures efficient disintegration of spheres and substantial ponents not relevant for T-cell expansion leaving In conclusion, the developed GMP-grade and (MSPES-1, MSPES-4, DC-ES-6) established from depeletion of viable cells as determined by flow human serum albumin as the only protein compo- animal-component free TexMACS GMP Medium Ewing sarcoma biopsies under serum-free condi- cytometry. Activated allogeneic NK cells were also nent. The expansion of T-cells in TexMACS GMP showed comparable or superior performance to tions. Standard monolayer cultures were used for cytolytic against resuspended spheres as well as Medium upon polyclonal activation using bioti- other commercially available serum-free media in comparisons. Phenotypic analysis by flow cytom- monolayer cultures. This effect was further con- nylated antibodies against CD2/ CD3/ CD28 loaded all tested T-cell activation and expansion systems. etry revealed heterogeneous expression of several firmed in an autologous system. In short-term co- on anti-Biotin-MACSiBeads, resulted in expansion The medium and other relevanT-cell culture com- surface markers among individual Ewing sarco- incubation experiments of Ewing sarcoma spheres rates comparable to what was observed with other ponents (e.g. antigens, antibodies, cytokines etc.) mas and between spheres and monolayers. While (MSPES-4) with autologous NK cells, both intact commercially available serum-free media. Using are harmonized with all components of the Clini- CD133 and the Ewing sarcoma marker CD99 were spheres, resuspended spheres as well as monolay- soluble antibodies against CD3 and CD28, more MACSâ system enabling clinicians to pursue con- expressed at comparable densities, expression ers were efficiently lysed. than 30%-higher expansion rates of viable and temporary clinical bench to bedside research. levels of the neural crest marker CD57 (HNK-1) and Thus, Ewing sarcoma cells cultured under variable functional T-cells after 6 days of expansion have of MHC class I proteins were significantly higher in in vitro conditions differ with regard to phenotype, been achieved with the new animal-component- sphere cultures, whereas CD117 (c-kit) expression function and susceptibility to both chemo- and im- free medium compared with other serum-free was lower. Ligands for NK cell activating receptors, munotherapy. Heterogeneity was also found among media. Transferring the same protocol to a high including NKG2D (MICA/B, ULBP1/2/3) as well as individual cell lines and primary cultures. Activat- density cell culture system such as a gas permeable DNAM-1 (CD112, CD155) were expressed at com- ed allogeneic as well as autologous NK cells effi- rapid expansion device, high densities of T-cells parable densities under both culture conditions. ciently target Ewing sarcoma cells including mul- with more than 1.5x10 cells/ mL were reached. Quantitative analysis of the viability of VH-64 ticellular spheres. The sphere model may provide The generation of antigen-specific T-cells using cells in the presence of the cytostatic drug doxo- a useful tool to analyze the contribution of micro- the Cytokine Capture System IFN-gamma (CCS) rubicine revealed an increased chemoresistance of metastatic architecture and serum-free niches to and the serum and animal-component-free T-cell spheres compared to monolayers, and resuspended immune evasion. medium showed similar results regarding purity, 7 75 026 | Cellular Therapy 027 | Cellular Therapy Immune-dominant Wilms’ Tumor 1 (WT1) peptide as target structure for cellular immune therapy in acute myeloid leukemia (AML) Establishment of an efficient transient transfection method for preparation of therapeutics expressing T lymphocytes Ulrike Buttkereit, Eugenie Hermann, Hellmut Ottinger, Dietrich. W. Beelen Ruth Eggers, Anja Philippi Clinic for Bone Marrow Transplantation, University Hospital Essen, Essen, Germany Cellular Immunotherapy, KIST Europe Forschungsgesellschaft mbH, Saarbrücken, Germany The “Wilms Tumor Protein 1” (WT1) is a tumor beadtechnology® was used for enrichment of acti- Electroporation antigen expressed in many solid tumors as well vated T-cells. Patient samples were more sensitive m(essenger-)RNA provides a powerful tool to in- IL-2 ER signal sequence. as in hematologic malignancies such as acute to stimulation than donor samples. troduce genetic information non-permanently in Thus, by varying the moment of transfection, the myeloid leukemia (AML) and myelodysplastic syn- Enriched T-cells were expanded in co-culture with primary T cells. electroporation device, the instrument settings and dromes (MDS). WT1 was shown to induce immune irradiated feeder cells by means of a cytokine cock- The aim of this study was to establish an efficient the ER signal sequence we were able to develop responses in AML patients, e.g. after peptide vac- tail. After 10 days cultures were restimulated with mRNA electroporation protocol which enables an effective mRNA electroporation method which cination. Furthermore, WT1 expression correlated autologous PBMC pulsed with WT1- and CMV- Pep- preparation of therapeutics producing and secret- allows preparation of pharmaceutical expressing with the blast percentages in the bone marrow and Tivator®. Expansion of WT1-specific T-cells was ing T lymphocytes for cancer therapy. For method T cells for cancer therapy. peripheral blood of AML patients. For this reason possible, however, not as effective as compared development ex vivo activated donor T cells were the WT1 protein is a very attractive target for im- to CMV-specific T-cells. Phenotype of expanded transfected with in vitro synthesized mRNA coding munotherapy of AML. T-cells was of effectormemory type (CD45RA-posi- for endoplasmic reticulum (ER)-directed eGFP. By After allogeneic stem cell transplantation the graft tive, CCR7-negative). using a BTX-ECM 830 electroporation device set to versus leukemia effect (GVL) is mediated by donor- Further characterization and functional analysis of deliver a single 500 V/800 µs pulse, mRNA transfer derived T-cells recognizing leukemia-associated expanded cells are under way. efficiencies of 80% could be obtained, while neither antigens such as WT1 in the context of HLA. Adop- Based on these preliminary data we conclude that T cell viability nor the cytolytic activity of CD8 tive transfer of antigen-specific T-cells is a novel the development of a more effective protocol for T lymphocytes were impaired. We found that the approach to target residual leukemic cells e.g. after expansion of WT1-specific T-cells is mandatory. moment of transfection has a considerable influence in vitro transcribed on the transfection efficiency, whereas variation of GMP-conform protocol for generation and ex vivo the instrument settings (voltage, pulse length) did expansion of WT1-specific cytotoxic T-cells (CTL). not improve the results. By pulsing in vitro stimu- The Streptamer® and Tetramer® technologies were lated T lymphocytes in an Amaxa-Nucleofector II cells in the device, both transfection efficiency and signal in- peripheral blood of HLA-A2-positive AML patients tensity could be enhanced. However, with respect and healthy donors. Very low frequencies of these to T cell viability and the absolute number of sur- cells were detected in healthy donors and slightly viving T cells, the BTX instrument was clearly su- higher values in AML and in MDS patients. perior to the Amaxa system. Furthermore we found To increase WT1-specific T-cells in number, periph- that the transfection result depends on the choice eral blood mononuclear cells (PBMC) were pulsed of the ER signal sequence. Electroporation of acti- with WT1- PepTivator® for 18h, using CMV-. PepTi- vated T lymphocytes with mRNAs containing the used to quantify WT1-specific CD8 eGFP signals than transfer of mRNA containing the + relapse. The aim of our project is to establish a + 76 with vator® as control. Activation of T-cells was detected leader sequences of IFN-γ and TGF-β2 resulted in by expression of CD137 or secretion of IFN-γ. MACS significantly higher transfection rates and stronger 77 028 | Cellular Therapy 029 | Cellular Therapy In vivo sunitinib pretreatment improves expansion of tumor infiltrating lymphocyte from renal cell carcinoma patients Immunosuppreassive effects of antifungal agents on murine CD8+ T-cells in vitro and in vivo 1 2 3 1, 3 Aurelie L. Guislain , Hester van Boven , Axel Bex , and Christian U. Blank 1 Division of Immunology 2 Division of Medical Oncology 3 Division of Pathology , Netherlands Cancer Institute, Plesmanlaan 121, 1066 CX, A msterdam, Netherlands 1 2 1 1 Third Department of Medicine, University Medical Center of the Johannes Gutenberg University, Mainz, Germany 2 Institute of Immunology, University Medical Center of the Johannes Gutenberg University, Mainz, Germany 3 Institute of Clinical Chemistry and Laboratory Medicine, University Medical Center of the Johannes Gutenberg University, Mainz, Germany Novel targeted therapies achieve objective response towards NK T-cells, while IFN-production was not Prophylaxis and therapy of opportunistic invasive with posaconazole, cell counting showed significant rates up to 50% in metastatic renal cell carcinoma different on a per cell level. fungal infections in immunodeficient patients include suppression of T-cell proliferation starting at a con- (RCC), but durable complete remissions are very Consecutive rapid expansion after culture, using potent antifungal agents such as posaconazole and centration of 0.3 µg/ml (mean 6.4 ± SD 1.3x10 cells) rare. Therefore additional therapeutic options are anti-CD3/IL-2, induced 100-200 fold expansion voriconazole. In previous work we could demonstrate compared to the control group (14.2 ± 0.8x10 cells; warranted. Adoptive transfer (ACT) of tumor in- in both groups, expanding preferentially T-cells, severe inhibitory effects of posaconazole (but not vori+ 6 6 3 p=0.002). This effect was confirmed by H-thymidine filtrating lymphocytes (TIL) has revealed response allowing a threefold higher final yield when pre- conazole) on human antigen-specific CD8 T cells in proliferation assay. Addition of voriconazole at same rates of up to 70% in melanoma patients and may treating the tumors with sunitinb. vitro. With regard to potential effects in patients after concentrations did not result in any significant in- lead to consolidation of responses upon sunitinib Sunitinib in vivo pretreatment improves TIL growth allogeneic hematopoietic stem cell transplantation, the hibitory effect on CD8 T-cell proliferation. In pres- treatment in RCC. Recent data suggest that sunitin- during the initial culture and does not impair their aim of the following study is to investigate the immu- ence of posaconazole, IFN-γ release of alloreactive ib influences lymphocyte infiltration into the tumor function or rapid expansion, allowing a higher nosuppressive effect of posaconazole in vitro as well CD8 T cells in vitro was significantly lower, compared + + + as in vivo using a murine model. CD8 T cells were to T-cells treated with voriconazole or controls (for cells (DC), and myeloid derived suppressor cells extracted from spleens of C57BL/6 mice by magnetic 0.3 µg/ml: 64.8 ± 45.8 vs. 209.5 ± 168.4 (voricona- (MDSC). Furthermore, in vitro assays revealed in- activated cell sorting. These T-cells were cultured with zole) vs. 218.0 ± 122.2 (control) spots/2x10 T-cells; conclusive results on the toxicity of sunitinib on spleen cells of the filial (F1) generation of C57BL/6 and p=0.03). In murine in vivo experiments, oral appli- T-cell function. BALB/c mice, thus creating haplo-reactive stimula- cation of 60 mg/kg posaconazole resulted in highest To address the effect of sunitinib on TILs, we com- tion in vitro. The antifungal agents posaconazole and and most stable serum levels (7.1 ± 5.5 µg/ml). After pared TIL grown from primary tumors pretreated voriconazole were added in escalating concentrations transcutaneous OVA-immunization, SIINFEKL-H2-K with 2 courses sunitinib prior to cytoreductive ne- (0.3; 1; 3; 10; 30 and 100 µg/ml) to cell culture medium tetramer staining showed a reduced frequency of OVA- phrectomy to TIL generated from treatment-naïve containing 100 U/ml of mIL-2. T-cell proliferation was specific CD8 T cells in vivo during treatment with and can impact regulatory T-cells (Treg), dendritic 78 1 Jana Kober , Daniel Teschner , Pamela Stein , René Mönnikes³, Matthias Theobald , 1, 2 1 1 Markus Radsak , Udo Hartwig , Wolfgang Herr final yield of TIL for ACT studies in RCC. 3 4 b + RCC patients. From 6 pretreated primary tumors measured by cell counting and H-thymidine prolifera- posaconazole compared to controls (1.1 ± 0.3% vs. and 6 untreated controls, sterile tumor material tion assay at days 4, 7, 12, and 14. To analyze allore- 2.6 ± 1.6%; p=0.24). Further flow cytometry analy- was obtained and digested with collagenase, hyalu- activity of T-cells in vitro IFN-γ ELISpot assays were sis upon CSFE labeling revealed an inhibitory effect ronidase and DNase to obtain tumor single cell sus- performed on day 12. To establish an in vivo model of posaconazole on specific lysis of CD8 T cells in pension. This TIL/tumor suspension was cultured posaconazole serum levels of mice were measured vivo (9.8 ± 8.8 vs. 26.6 ± 17.8%; p=0.24). In conclu- for up to 25 days in 6000IU/ml IL-2 and rapidly by high-performance liquid chromatography (HPLC) sion, application of posaconazole shows even stronger expanded by aCD3/IL2 stimulation afterwards. after oral administration of 40 mg/kg to 100 mg/kg inhibitory effects on murine CD8 T cell proliferation TIL harvested after co-culture with tumor cells posaconazole once daily for at least 12 days. Subse- and function than on human T-cells in vitro. Oral ad- yielded 43 (+/-48) fold expansion from non-pre- quently, mice were transcutaneously immunized with ministration of 60mg/kg posaconazole leads to stable treated tumors versus a 128 (+/-55) fold expansion the ovalbumin peptide (OVA) to evoke expansion of serum levels in mice comparable to those reported for + + + from tumors from patients that had been pretreat- peptide-specific CD8 T cells in presence of or without humans, and results in measurable inhibitory effects ed with sunitinib (p= 0,03). Phenotypic analysis orally administered posaconazole (60 mg/kg). For de- on T-cell priming and function in vivo. Further experi- of the culture product indicated a higher content + tecting OVA-specific CD8 T cells and for functional ments including a murine tumor model are planned to of NK cells from treatment naïve TIL cultures, testing, tetramer staining and in vivo analysis of their investigate the clinical impact of posaconazole-associ- while sunitinib pretreatment TIL cultures skewed specific lysis were performed. After in vitro treatment ated T-cell suppression. 79 030 | Cellular Therapy 031 | Cellular Therapy A novel process technology for automated NK cell culture and enrichment A group of T-cell receptors with strict requirements in the hypervariable region, but plasticity in the germline encoded domains, for recognition of HLA-A2/CD20 Markus Granzin, Mareke Brüning, Iris Spiegel, Sabine Müller, Jessica Blaschke, Volker Huppert, Jürgen Schmitz Sébastien Wälchli , Lars-Egil Fallang , Weiwen Yang , Even Walseng , Shraddha Kumari , 2 2 3 4 Harlan Robins , Nishanth Marthandan , Wolfgang Uckert , Mirjam Heemskerk , 1 Johanna Olweus 1 1 1 1 1 Miltenyi Biotec GmbH, Bergisch Gladbach, Germany Section for Immunology, Institute for Cancer Research, Oslo University Hospital-Radiumhospitalet, N-0310 Oslo, Norway 2 Adaptive Biotechnologies, 1551 Eastlake Avenue East, Suite 200, Seattle, WA 98102, USA 3 Max-Delbruck-Center for Molecular Medicine, Robert-Rossle-Strasse 10, 13092 Berlin, Germany 4 Laboratory of Experimental Hematology, Department of Hematology, Leiden University Medical Center, Leiden, Netherlands Natural killer (NK) cells are a promising tool for Flow cytometry analysis revealed comparable We recently published that T-cells specific for allo- TcR to another resulted in a specificity signature cancer therapy due to their ability to detect and expression of CD16, NKp30, NKp46 and NKG2D geneic HLA-A*02:01 (A2) in complex with a peptide that was highly similar to the original signatures. eliminate cancer cells. Using NK cells for therapeu- for manually or automatically expanded NK cells from the B cell-restricted protein CD20 (CD20p) can Taken together, the results demonstrate that the tic cell transfer in the clinic requires high numbers either from CD3-depleted or undepleted cultures. be isolated from HLA-A2 negative donors, with po- conserved parts (CDR3β and J2-7) of this group of of these cells. Therefore a method for automated Results show that large scale automation of NK cell tential application in immunotherapy of leukemia TcRs are necessary but not sufficient for recogni- expansion of human NK cells is developed. expansion is possible by use of the CliniMACS® and lymphoma. Interestingly, their T-cell receptor tion of HLA-A2/CD20p, and furthermore that there Automation of NK cell expansion was done by use Prodigy. CD3 depletion of unwanted T and NK like (TcR) beta chains contained highly biased CDR3 is a high degree of plasticity in the requirements for of the CliniMACS® Prodigy instrument, a novel tech- T-cells during culture is feasible. regions and a conserved J-region, whereas no bias the surrounding germ line encoded parts. nology for cell processing in a clinical environment. could be observed in the use of Vβ domains or Automated Ficoll density gradient centrifugation was α-chains. This group of related TcRs could there- performed to remove erythrocytes and granulocytes fore be used as a model to test the requirements from buffy coat samples of healthy donors and to for the germline versus the hypervariable regions obtain peripheral blood mononuclear cells (PBMC). for target recognition. We first showed that the This automated method yielded a suitable number previously reported sequence bias could be con- of PBMC and a better depletion of granulocytes firmed by deep sequencing. Next, a group of TcRs compared to the manual PBMC preparation. PBMC that contained the conserved CDR3 motif and J2-7 were cultivated with IL-2 and OKT-3 leading to an in their β-chains, but highly variable sequences in expansion of NK cells, but also of NK like T-cells and the remaining parts, were expressed and charac- 8 80 1 T-cells. NK cell numbers up to 5,1x10 were reached terized according to fine specificity. We found that with expansion factors of 54-208-fold after three any manipulation of the CDR3β or J2-7 sequences weeks. NK cell purities of 5-52% were obtained. negatively affected the TcR binding. Together, these Pure NK preparations are preferred with regard to results demonstrated dependency on the conserved analysis of clinical outcome and to reduce the risk parts for HLA-A2/CD20p recognition. When scru- of graft versus host disease possibly caused by con- tinizing the TCRs further we found that five of the taminating T-cells. TCRβ-chains retained the ability to bind tetramers Removing co-cultured T and NK like T-cells by and produce IL-2 when combined with an α-chain CD3-depletion during the expansion phase was from another CD20 specific TcR. Interestingly, for possible and resulted in a higher purity of NK cells some of the swapped TCRs the fine specificity was (56 - 96%). The cells retained their proliferative different compared to the original TcRs, suggest- capacity after depletion and expansion factors of ing a possible alteration in the antigen-binding 30-156-fold were obtained. region. In contrast, swapping the CDR3β from one 81 032 | Cellular Therapy 033 | Cellular Therapy Analysis and optimization of a p53264-272-tumor antigen-specific single chain TCR in terms of TCR mispairing in human T-cells Effect of cord blood regulatory T-cells on natural killer cell differentiation and function 1 1 1 1 Diana Knies , Beate Hauptrock , Hakim Echchannaoui , Edite Antunes , Simone Thom1 1 2 1 3 as , Sebastian Klobuch , Philippe Guillaume , Wolfgang Herr , Pedro Romero , Matthias 1 1 Theobald , Ralf-Holger Voss 1 Department of Hematology & Oncology, University Medical Center, Mainz, Germany 2 Ludwig Institute for Cancer Research, Lausanne Branch, Epalinges, Switzerland 3 Division of Clinical Onco-Immunology, Ludwig Institute for Cancer Research, Lausanne branch, Hôpital Orthopédique, Lausanne, Switzerland 82 1, 2 1, 2 1, 2 1, 2 Isabela Pedroza-Pacheco , Martha Luevano , Richard Duggleby , Alejandro Madrigal 1, 2 and Aurore Saudemont 1 Anthony Nolan Research Institute, Royal Free Hospital, London NW3 2QG, UK 2 UCL Cancer Institute, University College London, Royal Free Campus, London NW3 2QG, UK The adoptive transfer of tumor reactive T-cell recep- facilitating the association to any TCRα chain. We Regulatory T-cells (Tregs) may offer a promising cell-mediated GvL is adversely impacted by CB Treg tor (TCR) reprogrammed human T-cells represents an observed a higher incidence of mispairing in Jurkat- treatment for graft versus host disease, the main therapy. efficient strategy to increase the GVL (graft-versus- 76 T-cells compared with human T-cells due to a less complication of haematopoietic stem cell trans- leukemia) effect after allogeneic stem cell transplan- competitive situation between exogenous and human plantation (HSCT). To assess the feasibility of this tation. A safeguard in terms of mispairing between TCRα/β chains. IFNγ secretion-assays after stimula- therapy, it is important to consider their interaction the endogenous and exogenous TCR chains that likely tion with p53264-272-peptide loaded K562-A2 targeT-cells with natural killer (NK) cells, which are described results in neoreactivities against self antigens and thus, elicited decreased IFN-γ production reflecting higher as key effector cells of graft versus leukaemia (GvL). autoimmune pathologies, would be the use of a single mispairing and less expression of the p53264-272-specific Several groups have studied NK cell suppression by chain (sc) TCR construct. We asked ourselves whether scTCR. We speculated that the linkage of both mole- Tregs. However, a better understanding of this in- a single chain TCR scaffold of the domain order Vα- cules on a single plasmid via a 2A-element would kinet- teraction using cord blood (CB) as a cell source is Linker-Vβ-Cβ entirely prevents pairing with arbitrary ically favor the association of the nascently produced necessary, since CB is being increasingly used as a TCRα-chains due to sterical hindrance. For this, we chains in the endoplasmic reticulum. Here we observed source of stem cells for HSCT. are using 2 different retroviral murine p53264-272-tumor less but still residual mispairing with various human This study examined CB cells as a model of trans- antigen- specific scTCR constructs. The first one is re- or murine TCRα chains. The scTCR p53 revealed more plantation and focused on the effect of Tregs on (i) ferred to as a 2-retroviral vector system because of the potency to interact with murine than human TCRα NK cell phenotype and cytotoxicity and (ii) NK cell cloning of the p53264-272-tumor antigen-specific scTCR chains, thus the amount of interaction correlated with differentiation from CD34 stem cells to mature NK and the accessory murine (Mu) Ca-domain on sepa- the competitive strength of the respective TCRα chain. cells during a 5-week culture. Phenotype and via- rate retroviral vector backbones. Mu Ca is essential for In line with that, IFNγ secretion-assays after stimula- bility (7AAD-Annexin V) were assessed by flow cy- the stable expression of the p53264-272- tumor antigen- tion with p53264-272 peptide loaded K562-A2 targeT-cells tometry and NK cell killing capacity by Cr-release specific scTCR. The second one links both molecules proved less IFNγ-secretion for a mispaired scTCR p53. assay. To assess Treg effects on different stages of on a single retroviral vector by a self-splicing 2A- It is important to note that even tiny amounts of mis- differentiation, Tregs were added at 1:4 ratio with element and accounts for their concomitant expres- paired scTCRs may end up with clonal expansion after NK cells at 2, 9, 16, 23 and 30 days of culture. When sion. We performed pairing analysis of the murine neoreactive antigen encounter and potential autoreac- Tregs were added at day 16, there was a significant p53264-272-tumor antigen-specific scTCR with various tive T-cells due to the large proliferative capacity of decrease in the percentage of committed iNK cells human (gp100280-288, AML14-22) as well as murine T-cells in general. Therefore we aimed at improving (median, 27.16% NK cells v. 6.24% NK cells with (p53264-272, MDM281-88) TCR alpha chains (TCRα) of dif- the stability of the Vα/Vβ-domains by protein design. Tregs, p <0.01) and CD56 ferent antigen-specificities and variable Va-subfamilies The optimized p53264-272-tumor antigen- specific scTCR 29.05% NK cells v. 4.78% NK cells with Tregs, p mimicking any endogenous TCRα chain. The analysis demonstrated an equal efficacy and specificity towards <0.05); yet NK cell killing capacity was not af- was done in human T-cells, which equals a competi- the cognate antigen when compared to the unmodified fected (p>0.05). Similarly, whilst isolated NK cells tive situation in the presence of endogenous TCRs as scTCR p53 while entirely preventing residual mispair- co-cultured with Tregs decreased the expression well as in Jurkat-76 lacking endogenous TCRs, which ing in vitro. Notably, the modification led to a slightly of activating receptors (CD16, NKG2D, NKp46 and equals a non-competitive situation. In a 2-retroviral increased TCR affinity as shown by tetramer satura- DNAM-1), this effect was not maintained. vector system the analysis of TCR surface expression tion binding and Scatchard analysis. In conclusion, mi- So far, no persistent effect of Tregs on NK cell dif- indicated some mispairing of the scTCR p53 with any spairing analyses emphasizes the need for both retrovi- ferentiation and function has been detected; there- TCRα chain. We hypothesize that the Vα/β-domains ral vector as well as TCR protein design to safely apply fore, a complete study with activated Tregs is re- of the scTCR p53 may have a propensity to dissociate them in adoptive immunotherapy of cancer. quired. This study may help to determine if NK + 51 bright NK cells (median, 83 034 | Cellular Therapy 035 | Cellular Therapy An optimized single chain p53(264-272)-specific T-cell receptor devoid of ON/OFF target autoimmunity in a humanized mouse model of adoptive T-cell transfer Identification of donor-derived antigen-specific CTLs for clinical application using cysteine modified tetramers Jutta Petschenka, Edite Antunes, Matthias Theobald, Hakim Echchannaoui Cathrine F Knetter, Nadia Mensali, Weiwen Yang, Glenn Buene, Lars-Egil Fallang, Even Walseng, Reidulf Stray Pedersen, Johanna Olweus Department of Internal Medicine III (Hematology, Oncology, Pneumology), University Medical Center Mainz, Germany Several studies have demonstrated the clinical effi- off-target autoimmunity, an optimized single chain We have recently demonstrated that CTLs recog- pensive and only available as off-the-shelf reagents cacy of adoptive T-cell therapy for targeting cancer. (sc.) p53 TCR was engineered. Mice receiving op- nizing a peptide from the B cell specific antigen for known epitopes, preventing testing of large Using HLA-A2.1 transgenic mice, we have demon- timized sc. p53 TCR-transduced T-cells under con- CD20 (CD20p) in context of foreign HLA-A*0201, numbers of potential new targets. An alternative is strated the feasibility of T-cell receptor (TCR) gene ditions that promote expansion of the adoptively efficiently and specifically kill patient-derived to generate pHLA multimers from an in-house pre- transfer into T-cells to circumvent self-tolerance to transferred T-cells did not show any sign of GvHD. malignant B cells. Such CTLs could potentially cursor of the HLA-allele and a UV-sensitive peptide the widely expressed human p53 (264-272) tumor- Because the expression of p53 antigen on normal be isolated from healthy donors and used to treat by the method developed by Toebes, Shumacher associated antigen and developed approaches to tissues raises the concern of potential on-target tox- patients with malignant lymphoma and leukemia. and colleagues (Nat.Med. 2006). Briefly, a stable generate high-affinity CD8-independent TCR. icity, we performed adoptive T-cell transfer experi- In the setting of standard allogeneic hematopoietic HLA class I complexed with a photolabile epitope is However, a particular safety concern in TCR gene ments in humanized mice expressing the human stem cell transplantation, a mismatch on one HLA UV irradiated in the presence of a specific peptide, transfer is the formation of mixed TCR dimers p53 protein (Hupki mice) and did not observe any allele is permitted. Here, three separate donor - re- which will rescue the complex from degradation. between introduced and endogenous TCR chains, sign of TCR gene transfer-associated GvHD in this cipient pairs were simulated by utilizing healthy Although providing a high degree of flexibility, a resulting in the potential generation of self-reac- model. In addition, we could show that optimized donors mismatched on HLA-A*0201, but otherwise limitation with this approach might be low stabil- tive T-cells. Therefore, strategies to favor matched sc. p53 (264-272)-specific TCR redirected T-cells allelic identical when typed for the A, B, C, DRB1 ity, and that peptides with low affinity do not ef- TCR chains pairing and thus enhancing TCR cell mediate antitumor reactivity in a mouse tumor and DQB1 HLA loci. The donors were harvested ficiently replace the UV-sensitive peptide residues. surface expression, including optimization of TCR model. by leukapheresis. Monocytes from the HLA-A*0201 To improve the peptide exchange of such peptides, encoding nucleotide sequences, introduction of an In conclusion, these mouse studies show that adop- positive donor were used to generate dendritic cells an alternative is to utilize a system where modi- additional inter-chain disulfide bond between the tive TCR gene transfer-associated GvHD does not (DCs). By day 8, the DCs were pulsed with CD20p fied HLA multimers are generated by introducing TCR α and β chain constant domains, coexpression occur with the optimized sc. p53 (264-272)-specific and used to stimulate T-cells from the HLA-A*0201 a cysteine residue in the heavy chain. In addition, of both TCR α and β encoding-genes using self- TCR therefore suggesting that sc. p53 TCR may rep- negative donor. The T-cells were re-stimulated by a GC sequence is added to the N-terminal part of cleaving 2A virus peptide-based retroviral vectors resent a new and safe approach for TCR-based gene day 19 with HLA-A*0201 positive CD20p-pulsed the peptide of interest, hence allowing a cysteine and murinization of human TCR constructs have therapy of p53-associated malignancies. EBV-LCL from a third party donor. Add posi bridge to be formed between the modified heavy been applied. HLA-A*0201/CD20p –specific T-cells can be iden- chain and peptide. Nevertheless, adoptive transfer of mouse T-cells tified and isolated using staining with soluble We tested multimers presenting the CD20p gener- transduced with optimized p53 specific TCRs into HLA-peptide (pHLA) multimers, and have the po- ated by different approaches for binding to a cell p53-deficient humanized (A2Kb) mice was associ- tential to selectively cause graft-versus-leukemia. line transduced with a CD20 specific TCR. The ated with the development of lethal autoimmunity On day 19, CD8 positive multimer reactive T-cells cysteine modified multimers had been stored at due to the formation of self-reactive TCRs infiltrating were identified from all three HLA-A*0201 nega- 4°C for 20 days, and showed an increased stability vital organs, such as spleen, liver and bone marrow. tive donors. The same principle could be used to as compared to 1) an in-house multimer generated + In this mouse model, we have evidence that CD4 generate T-cells specific for other cell-type specific by refolding HLA-A*0201 with the wt CD20 peptide T-cells play a key role in controlling the develop- peptides presented on foreign HLA. However, when or 2) a commercial multimer, both stored at equal ment of graft-versus-host disease (GvHD) as we selecting the specific T-cells it is critical to avoid conditions, or 3) a multimer generated by the UV could show that the onset of the pathology is ac- the contamination of allo-reactive T-cells with the exchange procedure, as measured by a higher frac- celerated in mice receiving only genetically modi- potential to cause graft-versus-host disease. There- tion of multimer positive cells and a higher mean + 84 Department of Immunology, Institute for Cancer Research, Oslo University Hospital Radium hospitalet, Oslo, Norway. fied CD8 T-cells, compared to mice receiving both fore, pHLA multimers that are highly stable and fluorescenc intensity. This method could potentially T-cell subsets. give a bright staining of the specific T-cells is es- improve the isolation of highly specific T-cells able To further prevent TCR gene transfer-associated sential. Commercially available tetramers are ex- to induce graft-versus-leukemia for clinical use. 85 036 | Cellular Therapy 037 | Cellular Therapy Reprogramming T-cells with an optimized Melanoma-specific human single chain T-cell receptor results in substantial tumor cell recognition but also in mispairing with endogenous TCR chains Targeting dendritic cells with functionalized nanoparticles 1 1 1 1 2 1 1 1 2 3 1 1 Beate Hauptrock , Martina Teresa Glomski , Diana Knies , Edite Antunes , Pedro Romero , 1 1 Matthias Theobald , Ralf-Holger Voss M. Sommer , P. Okwieka , O. Zupke , M. Diken , G. Baier , D. Wolff , E. Distler , 1 3 1 1, 3 1 M. Theobald , K. Landfester , W. Herr , V. Mailänder , R. G. Meyer 1 Department of Hematology & Oncology, Johannes Gutenberg University of Mainz, III. Medical Clinic & Policlinic, Building for R&D, Obere Zahlbacherstrasse 63, Mainz, Germany 1 Department of Hematology, Oncology and Pneumology and 2Institute for Translational Oncology and Immunology, University Medical Center Mainz, Germany 2 Division of Clinical Onco-Immunology, Ludwig Institute for Cancer Research, Lausanne branch, Hôpital Orthopédique, Lausanne, Switzerland 3 Max Planck Institute for Polymer Research, Mainz, Germany 86 Adoptive transfer of gene-modified T-cells with morantigen p53 cannot exclude mispairing of the Acute GvHD is a major cause of morbidity after al- tive studies revealed that the relative uptake of NP tumorantigen-specific TCRs is a strategy to induce scTCR with a panel of irrelevant TCRα chains. To logeneic hematopoietic stem cell transplantation in the tissues was higher than in PB. tumor regression in cancer patients. However, trans- study if the optimized human scTCR/Cα-construct (HSCT). It is mediated by donor T-cells activated To investigate the ability of targeting DC in vivo, we fer of double chain (dc)TCRs into human T-cells also mispairs with TCRα chains of other specifici- by host antigen-presenting cells (APC). Even T-cell performed first experiments in a humanized NSG contains the risk of forming hybrid dimers with the ties, TCR-deficient Jurkat-76 cells were transduced depletion does not completely prevent acute GvHD. mouse model. Mice that had been humanized with endogenous TCR chains. Here, we used a human with different combinations of the scTCR and full Thus, manipulation/depletion of APC may be an 1x10 human peripheral blood stem cells (PBSC) single chain (sc)TCR specific for the Melanoma- length TCRα chains. Expression of the gp100- alternative for preventing allo-reactivity. We iden- successfully engrafted human CD45-positive cells antigen gp100 by linking the variable Vα-domain specific scTCR was determined by flow cytometry tified polystyrene-based polymeric nanoparticles as well as DC subsets in bone marrow (BM), spleen to the TCR β-chain as a potential tool to prevent using a vβ14-specific antibody. The minimally (NP) that labeled dendritic cells (DC) in vitro. The and PB. We injected the NP to these mice intrave- TCR mispairing. After retroviral co-transduction of murinized scTCR was expressed in JurkaT-cells in used NP (diameter 80 - 160nm) were functionalized nously and analyzed them as outlined. The fluo- this human scTCR and the constant domain of the combination with Cα or with different human and with either NH3- or COOH-groups to target DC. rescence pattern of humanized mice did not differ TCR α-chain (Cα) into human T-cells no expression murine TCRα chains, indicating that mispairing NP were tested by FACS analysis in regard to from that of the non-humanized controls. After 4 was detectable at the cell surface. Expression was takes place. However, low MFI of vβ14-staining in their internalization by and potential toxicity on days, 14.4% of spleen cells were positive for human restored when the human C-domains were replaced 6 JurkaT-cells transduced with the scTCR/TCRα in monocyte-derived DC. Additionally, intracellu- CD45 with CD14-positive monocytes being almost by murine C-domains. Since murine elements comparison to scTCR/Cα led to the conclusion that lar localization of NP was confirmed by confocal completely NP-positive (92.2%). When analyzed might be immunogenic in patients, we aimed at only few mispaired scTCR/TCRα-dimers reached Laser Scanning Microscopy (cLSM). Incubation of by laser scanning microscope (LSM), the particles altering only single amino acids. We and others de- the cell surface. After co-incubation with gp100 monocyte-derived DC with these NP had no impact were attached to the outer cell membrane. termined a lysine in murine Cβ as a pivotal residue peptide-loaded T2-cells, JurkaT-cells harbouring on viability on DC. Moreover, unlabeled as well as In summary, we identified polymeric NP for la- for expression of human TCRs. Recently, 9 murine mispaired scTCR/TCRα produced no IFNγ, dem- NP-labeled DC exhibited same surface marker ex- beling DC in vitro without a distinct influence on amino acids being responsible for expression and onstrating that the specificity of the scTCR was pression profiles (e.g. CD86 and HLA-DR) and thus phenotype or function of the cells. Different NP functionality when introduced into human dcTCRs lost by mispairing with an irrelevant TCRα chain. showed no differences in their function as antigen showed distinct bio-distribution patterns in vivo were identified by Sommermeyer et al. (JI 2010). Similar experiments performed in human T-cells presenting cells. when applied systemically to NSG-mice. The bio- These amino acids were introduced into the gp100- showed only a moderate expression of the scTCR For in vivo analyses, the NP have been triple-loaded distribution was not altered when mice were hu- specific scTCR/Cα. Contrary to the published data, when combined with an irrelevant TCR α chain, with BODIPY (FACS), IRDye-780 (in vivo biofluo- manized. Still, NP were not taken up by DC in vivo. we only detected a moderate enhancement in scT- probably due to favourable pairing of the full length rescence imaging, BFI), as well as platinum (tissue We currently investigate the influence of serum CR-expression of T-cells transduced with the mini- TCRα chain with endogenous TCR. distribution). NP were injected to 5 to 12 weeks protein on NP uptake. In addition, more specific null (NSG) mice intravenously. BFI mally murinized scTCR/Cα. To improve stability, In summary, our new constructs represent promis- old NOD/SCID/γc additional disulfide bonds were introduced. This ing candidates for adoptive T-cell transfer because a directly after i.v. injection showed a fluorescence led to a substantial increase of expression, cytokine substantial antitumor effect is provided. Mispairing peak in the liver. At later time points, fluorescence production and lysis of peptide loaded targeT-cells with endogenous TCR chains cannot be excluded, redistributed also to regions of lung, salivary and melanomas by T-cells bearing the minimally but expression levels of hybrid TCRs are low so that glands, and spleen. After 4 days, mice were sac- murinized scTCR/Cα. substantial so-called “off-target”-effects are unlikely rificed and the fluorescence of organs and tissues Our recent data showed that the use of a murine to occur. However, it is desirable to develop methods was measured. Particles were found in peripheral scTCR/Cα with the specificity for the universal tu- to prevent residual TCR mispairing blood (PB), liver, lung, spleen and skin. Compara- surface-modifications (e.g. Fc-fragments, specific antibodies) are being evaluated. 87 038 | Cellular Therapy 039 | Cellular Therapy CD8+ T-cell-specific transfer of TCR genes enhances tumor cell killing Next Generation Sequencing of γδ T-cell receptor repertoires 1 1 2 3 1 Qi Zhou , Irene Schneider , Inan Edes , Annemarie Honegger , Patricia Bach , 4 5 4 1 2 Kurt Schönfeld , Axel Schambach , Winfried Wels , Sabrina Kneissl , Wolfgang Uckert , 1 and Christian Buchholz 1 Molecular Biotechnology and Gene Therapy, Paul-Ehrlich-Institut, Langen, Germany 2 Max-Delbrück-Center for Molecular Medicine and Humboldt-University Berlin, Institute of Biology, Berlin, Germany 3 Department of Biochemistry, University of Zürich, Zürich, Switzerland 4 Chemotherapeutisches Forschungsinstitut Georg-Speyer-Haus, Frankfurt am Main, Germany 5 Institute of Experimental Hematology, Hannover Medical School, Hannover, Germany 88 1, 2 1, 2 1 1, 2 1 Tana Omokoko , Lisa Rüssel , Martin Löwer , Petra Simon , Andrea Breitkreuz , 1 1 1 1, 2 Valesca Boisguerin , Katja Manninen , John Castle and Ugur Sahn 1 TRON gGmbH, Translational Oncology at the University Medical Center, Johannes Gutenberg University Mainz, Germany 2 UniCell GmbH, Kupferbergterrasse 17-19, Mainz, Germany Transfer of tumor-specific T-cell receptor (TCR) molecules may stimulate effector functions of the γδ T-cells are promising agents for cancer im- genes into patient T-cells is an attractive approach T-cells. The data suggest that CD8-LV represents a munotherapy since they have the capability to transfer of ex vivo activated Vγ9Vδ2 T-cells. in cancer immunotherapy. Currently available powerful novel vector type for TCR gene therapy release inflammatory cytokines (IFNγ, TNFα) and Beyond that the isolation of high-affinity Vγ9Vδ2 vectors deliver genes into all types of lymphocytes and other applications in therapy and basic re- chemokines and exert direct and indirect cytotoxic TCRs may allow for effective cancer-specific redi- not only cytotoxic T-cells. We describe here a novel search requiring CD8-positive T-cell specific modi- activity against tumor cells, either alone or in as- rection of αβ T lymphocytes via TCR gene transfer CD8 targeted lentiviral vector (CD8-LV), which de- fication. several clinical trials: in vivo activation or adoptive sociation with other innate and adaptive immune thereby circumventing the problems associated livers genes exclusively and specifically to CD8- effector cells such as NK cells and cytotoxic T lym- with αβ TCRs being MHC restricted and usually of positive cells. The targeting ligand displayed on the phocytes. Additionally they are able of eliciting low affinity due to the nature of peptide self anti- vector surface is a single-chain variable fragment antibody-dependenT-cell cytotoxicity (ADCC). gens as well as mispairing with endogenous α or (scFv) derived from the CD8-specific monoclonal About 1 - 5 % of human T lymphocytes express γδ β TCR chains, which could lead to autoimmunity. antibody OKT8. CD8-LV mediated stable reporter T-cell receptors (TCRs). The major γδ T-cell subset With that in mind we used the Illumina HiSeq 2000 gene transfer, both, in vitro in human peripheral residing in the peripheral blood of healthy adults sequencing system for detailed Vγ9Vδ2 T-cell reper- blood mononuclear cells, and in vivo in human- expresses Vγ9Vδ2 TCRs, which respond to nonpep- toire analysis ex vivo and after stimulation with ZA. ized mice. This vector efficiently transferred genes tidic prenyl pyrophosphate metabolites, referred to We also employed a novel technology platform encoding TCRs recognizing the melanoma-reactive as phosphoantigens (pAgs) in a major histocompat- for the isolation and validation of functional TCR antigen tyrosinase. Strikingly, T-cells genetically ibility complex (MHC)-independent manner. genes from single T lymphocytes for the isolation modified with CD8-LV killed melanoma cells re- pAgs are produced by virtually all living cells. Most of high-affinity Vγ9Vδ2 TCRs from the same donor producibly more efficiently than CD8-positive cells importantly, isopentenyl pyrophosphate (IPP) the and correlated the data looking for characteristics transduced with a conventional lentiviral vector most common pAg, which is produced through the of specific clonotypes. (VSVG-LV). TCR surface density, expression levels mevalonate pathway, can activate Vγ9Vδ2 T-cells at of cytokines such as IFN-γ and TNF-α, as well as the concentrations that are found in tumor cells but not proliferative activity of the cells were excluded as in healthy tissues. Aminobisphosphonates (NBP) being causative. However, CD8-LV transduced ef- can be used to induce controlled IPP accumulation fector cells contained a small fraction of cells with in antigen presenting cells and tumor cells to ac- a relatively increased CD8-expression level on their tivate Vγ9Vδ2 T-cells. We and others have shown surface. Since CD8 functions as co-receptor for TCR that zoledronic acid (ZA) the most potent NBP cur- recognition of tumor cell, we propose that CD8-LV rently available for clinical use, can be used for ef- transduction enhances CD8 expression thus result- ficient activation of Vγ9Vδ2 T-cells when combined ing in enhanced sensitivity of TCR recognition and with low doses of IL-2. This paved the way for the anti-tumoral activity. Moreover, multiple contacts development of two strategies for the treatment between the scFv on the vector surface and CD8 of cancer patients that are currently evaluated in 89 040 | Cellular Therapy 041 | Cellular Therapy In vitro “on-target”-reactivity of affinity-modified p53264-272 tumor antigen-specific TCRs retrovirally transduced into human T-cells Cellular and molecular events controlling acquisition of cytotoxic activity by tumour-reactive CD4+ T-cells during melanoma progression and immunotherapy 1 1 1 1 1 Karolina Mroz , Lukas Eckhard , Diana Knies , Simone Thomas , Sebastian Klobuch , 2 3 1 1 Philippe Guillaume , Pedro Romero , Matthias Theobald , Ralf-Holger Voss Katharina Bergerhoff, Frederick Arce, Karl Peggs, Sergio Quezada Cancer immunology unit, University College London, UCL Cancer institute, London, UK 1 Department of Hematology, Oncology, and Pneumology, Universal Medical Center of Johannes Gutenberg University, Mainz, Germany 2 Ludwig Institute for Cancer Research, Lausanne Branch, University of Lausanne, 1005 Lausanne/ Epalinges, Switzerland 3 Division of Clinical Onco-Immunology, Ludwig Institute for Cancer Research, Lausanne Branch, Hôpital Orthopédique, Lausanne, Switzerland CD4 antigen of the wild type sequence 264-272 was de- In order to study potential “on-target”-reactivity in vitro orchestrator compartment of the adaptive immune veloped in HLA-A2-transgenic mice and proved to we chose autologous A2 human T-cells as targets for response while CD8 T-cells are considered the Furthermore, a microarray was performed in order recognize its cognate antigen with high affinity in TCR p53-retrovirally reprogrammed T-cells. The target effectors that execute direct cytotoxicity against to determine the differences in gene expression the subnanomolar range in a MHC-A2-restricted and T-cells were activated by either CD3/CD28 magnetic cancer cells. However, recent work illustrated the between naïve, tolerant, normal helper and the CD8-independent manner. However, from literature it beads or OKT3, which would mimick the in vivo situ- significance of the understudied tumour reactive tumour reactive CD4 cells in the peripheral lymph end up with proliferative exhaustion and activation + ation after cognate antigen recognition by adoptively transferred TCR p53-redirected T-cells. We observed very + T-cells have mainly been presented as the but accounts for a higher plasticity of the cytotoxic dogenously processes and presents the p53264-272 antigen. is known that high-affinity TCRs might prematurely + + CD4 T-cells during immunotherapy and tumour + + + CD4 cells including CD8 atypical pathways. + nodes and the tumour itself. The analysis was par- progression. Using the CD4 Trp1 transgenic (Tg) ticularly focused on the lineage specific differen- induced cell death (AICD) which likely compromise low (5-15%) but reproducible amounts of A2 target rec- melanoma mouse model and multicolour flow cy- tiation markers and transcription factors but also an effective immune response in vivo. Additionally, ognition above background for different PBMC donors in tometry, the molecular and cellular mechanisms on the up- or down regulation of genes that might “cross-reactivity” against irrelevant self-antigens and 12-hours 51-chromium release assays. “On-target”-cyto- + that underlie the function of these cytotoxic CD4 play a role in the tumour microenvironment, for “on-target”-reactivity directed against basal levels of toxicity correlated to the effector functionality of the wild T-cells are sought to be elucidated. For this, the example of transmembrane proteins and receptors. + cognate self-antigen presentation on normal cells might type and TCR p53 mutants as estimated from peptide tumour reactive CD4 cells are tracked and exam- Amongst others, the chemokine receptors CCR2 lead to autoimmune pathologies. Hence, we prompted titration. A mock control for various responders did not ined in a lymphodepleted, tumour-bearing host and CCR5 were shown to be significantly upregu- us whether by moderately decreasing the affinity of the elicit any comparable A2-restricted antigen recognition in which undergoes immunotherapy. Adoptive trans- lated on cytolytic CD4 cells in the tumour, which TCR p53 within a narrow tenfold range the longevity all experiments and alloreactivity could not be detected + - of p53-specific T-cells may be improved and potential in different A2 /A2 -mixed target/responder lymphocyte “on-target”-toxicity may be reduced while sustaining cytotoxicity assays. Intriguingly, A2 responders bearing efficient recognition of tumor cells. We focused on Asp - + any of the TCR p53 variants recognized A2 targets with + + emphasises the important role of the tumour micro- which lack expression of the melanoma differentia- enviroment on the differentiation of the cytotoxic tion antigen (tyrosinase-related protein 1 [TRP1]), phenotype. into wild type B6 mice results in the recognition + higher efficacy than A2 responders. The sensitivity of of TRP1 by the CD4 Trp1Tg in the host and their may be dominantly involved in antigen recognition. A the A2-restricted and antigen-dependent recognition was acquisition of cytotoxicity. vast array of amino acid exchanges were introduced increased by using the HLA-A2-crosslinking antibody The analysis of lineage specific differentiation by site-directed mutagenesis and rapidly screened for BB7.2 which led to substantial higher amounts of specific markers and transcription factors on the cytotoxic + CD4 cells surprisingly led to the impression of a - + expression and effector function by RNA transfer into antigen recognition. Specific lysis of A2 targets by TCR human T-cells. We identified TCRα S116C, S116G, S116T, p53-reprogrammed autologous and A2 responders was mixed lineage phenotype: the CD8 specific tran- and S116A-bearing TCR p53 mutants with gradually diminished by pulsing them with the competitive A2- scription factor Runx3 was highly expressed in lower affinity in tetramer analysis, and effector function high-affine peptide FluM1. A2 targets were barely lysed the isolated CD4 (IFNγ-secretion and cytotoxicity). Subcloned retroviral at all which further supports the specificity of the ob- (GzmB), the cytolytic enzyme responsible for the TCR p53 constructs showed similar expression and ef- served “on-target”-reactivity towards A2 T-cells. Since cytotoxicity of CD8 cells. However, the CD4 cells fector functionality in T-cells. However, although in this mechanism referred to as “fratricide” might attenu- lacked at the same time the expression of Eomes, tetramer analysis the S116T and S116A TCR p53-deriva- ate the effectiveness of adoptive immunotherapy we are the direct inducer for GzmB expression in CD8 tives proved to be weak, they were almost as efficient as currently developing molecular strategies to prevent this cells. This novel expression pattern clarifies that the wild type in peptide titrated effector function and in adverse reaction in the human T-cell compartment. the differentiation of the ‘killer’ phenotypes is not - + + fer of CD4 cells from naïve Trp1 transgenic mice, 115 and Ser 116 which lie on the tip of CDR3α and thus, recognition of the osteosarcoma Saos-2/143 which en90 + The TCR p53 directed against the tumor-associated + + cells, along with Granzyme B + + + + a complete reprogramming to the CD8 lineage 91 042 | Cellular Therapy 043 | Cellular Therapy Generation of MCSP-specific, MHC-independent T-cells by RNA electroporation at a clinically feasible scale Reprogramming bulk CD8+ and γ/δ T lymphocytes with a specificity for adenovirus by electroporation of TCR-encoding mRNA 1 2 2 1 Christian Krug , Nicole Hoffmann , Patrick Schmidt , Katrin Birkholz , Beatrice Schuler1 1 2 1 * 1 * Thurner , Gerold Schuler , Hinrich Abken , Jan Dörrie , , and Niels Schaft , 1 Department of Dermatology, Universitätsklinikum Erlangen, Erlangen, Germany 2 Center for Molecular Medicine Cologne (CMMC), University of Cologne, Cologne, Germany * Share senior authorship * 1 * 2 1 1 Jan Dörrie , , René Geyeregger , , Ina Müller , Niels Schaft 1 Department of Dermatology, RNA-group, Universitätsklinikum Erlangen, Erlangen, Germany 2 St. Anna Children’s Cancer Research Institute, Clinical Cell Biology and FACS Core Unit, Vienna, Austria * These authors contributed equally Adoptive T-cell transfer has proven to be a prom- anti-CD28 antibody to obtain sufficient numbers An allogenic haematopoietic stem cell transplant As reprogrammed T-cells still express their en- ising approach for the immunotherapy of cancer of T-cells for clinical application. The transfected (HSCT) combined with chemo-and radiotherapy dogenous TCR, they may be alloreactive and during the last decades. The clinical application T-cells were checked for receptor mediated T-cell can be the last resort in treating chemotherapy- might cause graft versus host disease (GvhD). of such therapies was held back by several prob- activation and cryopreserved. After thawing, the resistant hematopoietic malignancies in children. γ/δ T-cells, in contrast, are not alloreactive, and lems so far, as tumor-infiltrating lymphocytes (TIL) cells were again tested for cytokine secretion and The time to immunological engraftment of the these cells would be good tools to prevent allore- were difficult to obtain. In addition, the transfer cytolytic capacity upon exposure to tumor cells. transplant in these patients can take up to several activity against recipienT-cells if the donor is not of wild-type T-cell-receptors (TCR) into autologous Finally we performed in vivo experiments in mice weeks or even months. During this time there is completely matched. Therefore, we investigated T-cells was hampered by the naturally weak an- to test the functionality of CAR-modified T-cells. often no protection against adenoviral (ADV) infec- whether γ/δ T-cells could also be reprogrammed tigen-affinity of those receptors and the dysfunc- Healthy donor- and patient-derived T-cells could tion, which causes substantial transplant-associat- by α/β TCR-RNA electroporation. TCR-transfected tional MHC-restricted antigen-presentation by the be expanded by the optimized protocol in a way ed death. The use of effective antiviral drugs such γ/δ T-cells also produced IL-2, TNF, and IFNγ in tumor. Engineering T-cells with chimeric antigen that is feasible under GMP-conditions and yields as Ganciclovir or Cidofovir is limited and associ- response to peptide-loaded targeT-cells. Since most receptors (CAR) provides an elegant solution for enough T-cells for the intended clinical application. ated with significant side effects, and it results in γ/δ T-cells are CD8-negative, and the introduced those problems. CAR feature an antibody-derived The engineered T-cells produced IL-2, TNF, and prophylactic overtreatment in a large proportion of TCR might benefit from CD8 co-binding, we co- binding domain (scFv) which is fused to signaling IFNγ after stimulation with MCSP+ tumor cells, individuals. An alternative effective therapy is the electroporated mRNA coding for CD8 molecules. domains of the T-cell-receptor complex. After engi- and this ability was maintained after freezing and adoptive transfer of ADV-specific T-cells. However, These TCR-CD8-co-transfected γ/δ T-cells showed neering with a CAR, the T-cells are able to recog- thawing. Furthermore, CAR-modified T-cells lysed 10 to 20 % of all HSCT donors lack ADV-specific an increased cytokine production. In a direct com- nize the native, unprocessed antigen on the tumor tumor cells in an antigen-specific manner after cry- T-cells. In this case, a solution could be the repro- parison between TCR-transfected CD8 α/β T-cells cell surface. As CAR T-cells may mediate autoim- opreservation. Moreover, first in vivo experiments gramming of donor T-cells with an ADV specificity and TCR-CD8-co-transfected γ/δ T-cells we found mune reactions, we decided to modify T-cells by showed that the transfected T-cells prolonged the by transfer of a TCR. that γ/δ T-cells produced more TNF and IFNγ, but RNA-electroporation in order to achieve transient survival of immunodeficient mice after co-injection In this study, we transfected CD8 T-cells with less IL-2 in response to antigen. In addition, the CAR expression and thereby eliminating the risk with tumor cells. mRNA encoding an HLA-A1-restricted, ADV-spe- TCR-transfected γ/δ T-cells also efficiently lysed of permanently ongoing autoreactivity. Taken together the study provides a clinically ap- cific TCR by electroporation. The TCR-transfected peptide-loaded targeT-cells. Surprisingly, the co- In this study we electroporated T-cells from healthy plicable protocol for the generation of antigen-spe- CD8 T-cells specifically recognized peptide-load- + + + + transfection of CD8 molecules did not improve the donors or late-stage melanoma patients with mRNA cific T-cells in a transient manner for use in the ed HLA-A1 dendritic cells (DC) and tumor cells cytolytic capacity of γ/δ T-cells. encoding different CAR molecules which recognize immunotherapy of cancer, therefore avoiding some and responded with secretion of the pro-inflamma- Taken together, we show here for the first time that the melanoma-associated chondroitin sulfate prote- of the safety concerns that are associated with per- tory cytokines IL-2, TNF, and IFNγ. Furthermore, not only α/β T-cells but also γ/δ T-cells can be re- oglycan (MCSP), which is strongly expressed on the manent modification of T-cells. TCR-transfected CD8 + T-cells were also able to programmed with an ADV specificity by TCR-RNA surface of almost all melanomas but shows limited lyse peptide-loaded targeT-cells. Most importantly, electroporation. These cells may be good tools in a expression on healthy tissues. T-cells were ex- TCR-transfected CD8 T-cells also recognized ADV- new strategy for the immunotherapy of ADV infec- panded prior to electroporation by stimulation with infected targeT-cells in an antigen-specific manner. tion after HSCT. + the agonistic anti-CD3 antibody OKT3 and/or the 92 93 044 | Improving Immunity Immunotherapeutic potential of fully human anti-Macrophage Migration Inhibitory Factor antibodies in different mouse cancer models Enhancing Immunity 1 2 3 1 Patrice Douillard , Thorsten Hagemann , Michael Freissmuth , Michael Thiele , 1 1 1 1 Dirk Völkel , Hans Peter Schwarz , Fritz Scheiflinger , Randolf J Kerschbaumer 1 Baxter Innovations GmbH, Vienna, Austria. 2 Barts Cancer Institute, Queen Mary University of London, UK. 3 Institute of Pharmacology, Medical University Vienna, Austria. Macrophage migration inhibitory factor (MIF) is pro-inflammatory cytokines within the tumor, (iii) known as a cytokine exhibiting a broad range of reduce angiogenesis and (iv) prolong the survival immune and inflammatory activities. The involve- of the tumor-bearing mice. Similarly, the antibod- ment of MIF in inflammation, autoimmune dis- ies were further shown to significantly suppress orders and in tumorigenesis makes it a potential tumor growth in xenograft models of ovarian and target for therapeutic intervention. MIF is up-reg- prostate cancer. ulated in a large variety of human neoplasms (e.g. In conclusion, our data suggest that our fully pancreatic, breast, prostate, colon, brain, and lung human anti-MIF antibodies have a good potential tumors) and several studies report that MIF expres- for clinical use in oncology. The data are in line sion closely correlates with tumor aggressiveness with the role of MIF as a promoter of tumor growth and metastatic potential. MIF’s biological activities and the concept of MIF neutralization as a potential have been shown to contribute to tumor growth strategy to inhibit tumor progression. and metastasis by different mechanisms: (i) MIF activates cell signaling cascades leading to tumor suppressor down-regulation and enhanced proliferation; (ii) MIF induces angiogenesis and tumor invasiveness by controlling hypoxic adaptation and induction of proangiogenic factors such as VEGF; (iii) as a pro-inflammatory cytokine MIF is a key mediator of tumor micro-inflammation. Baxter has developed fully human antibodies that efficiently bind and neutralize MIF. According to their potential to neutralize biological MIF activities in vitro, a subset of antibodies was tested in nude mouse xenograft models for prostate, ovarian and pancreatic cancer. Human cells were implanted orthotopically into the pancreatic cancer model and the anti-MIF antibodies were injected 7 days after tumor establishment. The anti-MIF 94 antibodies were able to (i) suppress tumor growth and metastasis (ii) reduce the production of host 95 045 | Improving Immunity 046 | Improving Immunity Antibody fusion proteins of cytokines and costimulatory ligands for cancer immunotherapy Single-chain bispecific antibodies activate human regulatory T-cells and trigger their suppressive function Vanessa Kermer, Nora Hornig, Roland Kontermann & Dafne Müller Stefanie Koristka , Marc Cartellieri , Anke Theil , Claudia Arndt , Anja Feldmann , Irene 1 3 3 4 4 Michalk , Katrin Töpfer , Achim Temme , Martin Bornhäuser , Gerhard Ehninger , Marc 1 1, 2 Schmitz , Michael Bachmann Institute of Cell Biology and Immunology, University of Stuttgart, Stuttgart, Germany 1 2 1 1 1 Institute of Immunology, Medical Faculty ‘Carl Gustav Carus’, Technical University Dresden, Fetscherstr. 74, 01307 Dresden, Germany 2 DFG-Center for Regenerative Therapies Dresden, Technical University Dresden, Fetscherstr. 105, 01307 Dresden, Germany 3 Department of Neurosurgery, University Hospital ‘Carl Gustav Carus’ Dresden, Fiedlerstr. 23, 01307 Dresden, Germany 4 Medical Clinic and Policlinic I, University Hospital ‘Carl Gustav Carus’ Dresden, Fetscherstr. 74, 01307 Dresden, Germany + Cytokines of the common cytokine receptor γ-chain observed for the antibody-4-1BBL fusion protein. Bispecific antibodies (bsAb) were designed for the tempted to cross-link Tregs to PSCA prostate cancer family and costimulatory members of the B7- and Thus, the development of antibody fusion proteins redirection of cytotoxic immune cells against cancer cells. This proved to be possible as the incubation of TNF-family have shown great potential to support with cytokines and costimulatory ligands provides cells and hold great potential for the immunotherapy Tregs together with PC3-PSCA cells in the presence the generation and development of an antitumor promising options for cancer immunotherapy. of malignant disorders. In general, a single-chain of a bsAb CD3xPSCA leads to the upregulation of immune response. In order to improve the efficacy bsAb molecule consists of the variable heavy and various activation markers as well as to the release of such molecules at the tumor site we designed light chains of two monoclonal Abs connected via of the immunomodulatory cytokine IL-10. Moreover, novel antibody fusion proteins for therapeutic ap- flexible linker peptides. This facilitates the simul- bsAb-redirected Tregs showed a remarkable capac- proaches, focusing either on optimized presenta- taneous binding of two different antigens, e.g. the ity to attenuate proliferation and cytokine secretion tion or a combined mode of action. Thus, we in- activating CD3 complex on T-cells and a tumor as- of cocultured autologous CD4 vestigated the possibility to improve the efficiency sociated antigen on tumor cells. Thereby, T effector The suppressive potency of bsAb-activated Tregs of IL-15 presentation in a targeted approach by (Teff) cells can be cross-linked and activated against was further verified in vivo. Administering Tregs the incorporation of an IL-15Rα-chain fragment, a targeT-cell subsequently leading to the efficient together with PC3-PSCA tumor cells and a bsAb mimicking + Teff cells in vitro. presentation. killing of the latter. The feasibility and efficacy of CD3xPSCA abrogated the anti-tumor effect of coin- Therefore, an antibody-cytokine fusion protein bsAb for tumor treatment has been demonstrated jected CD4 Teff cells and promoted tumor growth was generated composed of an antibody moiety not only in vitro and in several mice studies but also in athymic nude mice. targeting the tumor stromal fibroblast activation in first clinical trials. However, so far it has not been In conclusion, our findings provide first evidence protein (FAP), an extended IL-15Rαsushi domain investigated whether regulatory T-cells (Tregs), that bsAb can efficiently activate Tregs against a and IL-15. Enhanced proliferation and cytotoxicity which also carry the CD3 antigen on their surface, surface antigen in a TCR independent manner, and of T-cells in vitro as well as an improved antitu- get activated by bsAb in a similar way as their Teff trigger their suppressor function both in vitro and mor effect in a tumor mouse model in vivo were cell counterparts. in vivo. In view of these results, the potential risk achieved. For a combinatorial approach, antibody Among various immune escape mechanisms, the re- of Treg activation should be taken into considera- fusion proteins with the costimulatory ligands B7 cruitment of Tregs to the tumor microenvironment tion when applying bsAb for cancer treatment. On and 4-1BBL, directed against different antigens plays an important role. Tregs accumulated in tumor the other hand, given their indispensible role in es- (FAP and endoglin) on the same targeT-cell were tissues limit anti-tumor responses and promote tablishing and maintaining peripheral tolerance, an generated, displaying costimulatory activity in a tumor progression. Consequently, increased Treg antigen- and/or site-specific recruitment of Tregs target-dependent manner. In combination with a numbers correlate with poor survival prognosis of into inflamed tissues using bsAb may offer novel bispecific antibody (FAPxCD3) enhanced activa- the affected patients. In light of this, there is an therapeutic options for Graft versus Host Disease, tion and proliferation of PBMC was shown, that urgent need to evaluate whether Tregs will be acti- transplant rejection or autoimmune diseases. could be further increased by the application of vated by bsAb within the scope of a tumor therapy. both costimuli. Strongest costimulatory effect on Using a recently described bsAb directed against physiological trans + proliferation and cytotoxicity of CD8 T-cells was 96 1 CD3 and the prostate stem cell antigen (PSCA) we at- + Koristka, S. et al. (2012) J. Immunol. 188: 1551-1558. Koristka, S. et al. (2012) Ms in preparation. 97 047 | Improving Immunity 048 | Improving Immunity Immunomodulation of peripheral blood mononuclear cells by PHA and irradiated K562 Heterologous adeno-poxvirus combination for immunogenic cancer targeting 1 2 3 4 5 6 Abdolkarim Sheikhi - , Hedyeh Banaei , Nasrin Yahaghi , Karim Saadati , D Robert Siemens 1 Immunology Dept., Dezful Faculty of Medical Sciences, Dezful, Khuzestan, Iran 2 Immunology Dept., Ahwaz University of Medical Sciences, Ahwaz, Khuzestan, Iran 3 Allameh High School, Shiraz, Fars, Iran 4 Payam-noor University, Zanjan, Iran 5 6 Surgery Dept, Valie Asr Hospital, Zanjan University of Medical Sciences, Zanjan, Iran Anatomy and Cell Biology Dept., Queens University, Kingston, Ontario, Canada 1 1 1 1, 2 Markus Vähä-Koskela , Marko Ahonen , Noora Rouvinen-Lagerström , Anna Kanerva , Fang 3 1 2 4 5 1 Zhao , Sari Pesonen , Päivi Pakarinen , Jarmo Salo , Vincenzo Cerullo and Akseli Hemminki 1 Cancer Gene Therapy Group, Molecular Cancer Biology Research Program, Transplantation Laboratory, Haartman Institute and Finnish Institute of Molecular Medicine, University of Helsinki, Finland 2 Department of Obstetrics and Gynecology, Helsinki University Central Hospital, Finland 3 Advanced Microscopy Unit, Haartman Institute, University of Helsinki, Finland 4 Department of Cardiothoracic Surgery, Helsinki University Central Hospital, Finland 5 Immunovirotherapy Group, Molecular Cancer Biology Research Program, University of Helsinki, Finland Objective: Natural killer (NK) cells are an impor- Background: Cancer therapy has traditionally been of intratumoral NK cells than in any other tested tant subset of cytotoxic lymphocytes and are best limited by acquired cellular resistance and immu- regimen. Switching viruses also led to a decrease characterized by their ability to spontaneously kill nosuppression. In this regard, oncolytic viruses of neutralizing antibodies in the serum at study virally infected and tumor cells but the mechanisms make promising therapeutics as they interfere endpoint compared to repeated administration of contributing to deficient NK activity in patients with multiple cellular pathways and elicit inflam- the same virus. with cancer remains unclear. NKp44 and NKG2D mation, which also promotes anti-tumor immune Conclusions: Heterologous combination therapy in- are of the main NK activating receptors involved in responses. However, innate and adaptive responses creased anti-tumor efficacy in an adenovirus resist- recognition and killing of tumors. Here we studied are typically biased toward foreign (viral) antigens ant tumor model, suggesting molecular synergy to the stimulatory effects of K562 on induction of rather than self-derived tumor antigens. In order to overcome innate tumor defenses. In immunocom- NKp44 and NKG2D expression on human PBMCs. circumvent this problem, we have tested sequential petent hosts, combination virotherapy activated Materials and Methods: The NK activity of PBMCs combination of two powerful yet mechanistically innate and adaptive immune responses that corre- against DU-145 was determined with 51Cr-release distinct oncolytic viruses: adenovirus and vaccinia lated with reduced tumor burden without increas- assay. The PBMCs were stimulated with PHA, on 3 virus. The combination presents several theoreti- ing anti-virus immunity. These results demonstrate occasions (3-PHA-PBMC) and were incubated with cal synergies on the molecular and immunological several benefits of heterologous combination viro- irradiated K562 (iK562). The expression of CD56, levels. therapy that warrant further studies to support NKG2D and NKp44 were detected with reverse Methods: The feasibility of combining oncolytic clinical translation. transcription-PCR and flowcytometry. Results: PHA vaccinia virus with adenovirus to overcome innate + stimulation increased the proportion of CD56 cells tumor defenses was tested in vitro and in a dis- and up-regulated NKG2D and NKp44 expression. seminated intraperitoneal human ovarian cancer Co-incubation with iK562 didn‘t change NKG2D xenograft model in SCID mice shown previously to but increased NKp44 expression. NK activity of acquire resistance to human adenovirus [Liikanen 3-PHA-PBMC after co-incubation with iK562 was et al., 2011, Mol Ther]. Immunological impact of significantly increased. sequential virus therapy was assessed in C57 black Discussion and Conclusion: Our results demon- mice carrying subcutaneous B16.OVA tumors. strated that the mitogen and iK562 exposure to Results: Combination with vaccinia virus provided PBMCs can significantly improve NK activity which significant therapeutic benefit in an adenovirus- is related to the higher expression of NKp44 and resistant tumor model. In immunocompetent mice, NKG2D. These data may help to improve cancer intratumoral injection of 1e8 PFU of vaccinia virus immunotherapy protocols. followed six days later by 2e10 VPs of oncolytic adenovirus seemed to provide the greatest therapeutic effect and was associated with greater induction 98 99 049 | Improving Immunity 050 | Improving Immunity Immunotherapeutic synergy between anti-CD137 mAb and intratumoral admistration of a cytopathic Semliki Forest virus encoding IL-12 Antitumoral responses against liver implanted tumors induced by Semliki Forest virus expressing IL-12 can be potentiated by coadministration of IL-15 1 1 1 2 José I. Quetglas , Juan Dubrot , Jaione Bezunartea , Miguel F. Sanmamed , 1 1, 2 1 Sandra Hervas-Stubbs , Ignacio Melero , Cristian Smerdou 1 2 Division of Hepatology and Gene Therapy, Center for Applied Medical Research (CIMA), University of Navarra, Pamplona, Navarra, Spain Medical Oncology Department, Clínica Universidad de Navarra, Pamplona, Spain Division of Hepatology and Gene Therapy, Center for Applied Medical Research (CIMA), University of Navarra, Pamplona, Navarra, Spain. Semliki Forest virus (SFV) expression vectors the agonist antibody. An additional effect of the We have previously shown that recombinant non-treated animals showing profound changes in contain a single positive strand RNA genome and combinatorial treatment was a marked reduction of Semliki Forest virus (SFV) vector expressing in- lymphoid and myeloid immune populations at day are able to express high levels of heterologous pro- humoral responses against SFV particles, reaching terleukin-12 (SFV-IL12) had potent antitumoral ef- 4 after treatment. Interestingly, a marked increase teins in many differenT-cell types, including tumor levels that would allow efficient readministration ficacy in a subcutaneous model of murine MC38 of IL-15Rα expression was observed on tumor spe- cells. It has previously shown by our group that of the viral vector. This efficacious combinatorial colon adenocarcinoma, leading to complete tumor cific CD8(+) T-cells of animals that responded to intratumoral injection of a SFV vector encoding immunotherapy strategy offers feasibility for clini- regressions in >90% of animals when they were therapy compared to non-responders. Since IL-15 IL-12 (SFV-IL-12) combines high expression of IL-12 cal translation since anti-CD137 mAbs are already treated intratumorally with 10 viral particles (vp). has been associated with memory immune re- with induction of stressfull apoptosis in infected undergoing clinical trials and development of clin- However, when MC38 tumors were implanted in sponses these results support the idea that estab- malignanT-cells. Agonist antibodies directed to the ical-grade SFV-IL-12 vectors is in progress. the liver, an organ where colon cancer usually lishment of this type of response is important for costimulatory receptor CD137 (4-1BB) can strongly metastasize, SFV-IL-12 efficacy was reduced to tumor elimination. Accordingly the combination amplify pre-existing cellular immune responses <50% complete regressions. This indicates that of SFV-IL-12 with recombinant IL-15 was able to towards weak tumor antigens. In this study we antitumoral responses are greatly dependent on the increase the antitumoral effect of the vector leading demonstrate that a combined strategy consisting tissue where the tumor develops. We reasoned that to a significant increase in survival in comparison of intratumoral injection of SFV-IL-12 and systemic characterization of antitumoral immune responses to mice treated only with SFV-IL12 or IL-15. These delivery of agonist anti-CD137 mAb provides pow- against intrahepatic tumors could provide useful data strongly supports the hypothesis that antitu- erful synergistic antitumoral effects against poorly information for the design of more potent antitu- moral effects of SFV-IL-12 against tumors in the immunogenic B16 melanomas (B16-OVA and B16. moral strategies against liver tumors. Treatment of liver could be potentiated by stimulating memory F10) and TC-1 lung carcinomas. Effector CD8 β + liver MC38 tumors with 10 vp of SFV-IL-12 induced T-cells were sufficient to mediate complete tumor a high population of tumor specific CD8(+)CD62L(-) eradications. Accordingly, there was an intense effector T lymphocytes in all animals at 7-10 days synergistic in vivo enhancement of CTL-mediated after vector inoculation. However, this effector immunity against tumor antigens OVA and TRP-2. phenotype appeared earlier in animals responding This train of phenomena led to long-lasting tumor- to therapy. All treated mice showed high levels of specific immunity against rechallenge, attained functional specific CD8(+) T-cells at 8 days post- transient control of the progression of concomi- treatment by both in vivo killing and IFNγ ELISPOT tant tumor lesions that were not directly treated assays, but these levels decreased along time, being with SFV-IL-12, and caused autoimmune vitiligo. this reduction more pronounced in animals that Importantly, we found that SFV-IL-12 intratumoral had not been able to eliminate tumors. The role of injection induces high expression of CD137 on most CD8(+) T-cells in tumor elimination was confirmed + 8 8 T lymphocytes, thereby by depletion studies. Infiltration studies were per- providing more abundant targets for the action of formed in liver, spleen and tumors of treated and tumor infiltrating CD8 100 José I. Quetglas, Marta Ruiz-Guillén, Juan R. Rodríguez-Madoz, Jaione Bezunartea, Erkuden Casales, José Medina-Echeverz, Sandra Hervás-Stubbs, Pedro Berraondo, Jesús Prieto, and Cristian Smerdou immune responses. 101 051 | Improving Immunity 052 | Improving Immunity Tumor-specific CD4+ T-cells develop cytotoxic activity and eliminate virus-induced tumor cells in the absence of regulatory T-cells CpG-ODN induced upregulation of BTLA mediating selective inhibition of human B cells 1 1 1 2 1, 2,3, 4* 5, 6* 1, 2,3, 4 Ilseyar Akhmetzyanova , Gennadiy Zelinskyy , Simone Schimmer , Tim Sparwasser 1 and Ulf Dittmer Marie-Laure Thibult , Jean-Paul Rivals , Emilie Mamessier , Julie Gertner1, 2,3, 4 1, 2,3, 4 5 1, 2,3, 4* 7* Dardenne , Sonia Pastor , Daniel E. Speiser , Daniel Olive and Laurent Derré 1 Institute for Virology of the University Clinics in Essen, University of Duisburg-Essen, 45147 Essen, Germany 1 INSERM U1068, Centre de Recherche en Cancérologie de Marseille, Marseille, F-13009, France 2 Aix-Marseille Université, UMR 891, F-13284, Marseille, France Institute for Infection Immunology, TWINCORE, Feodor-Lynen-Str. 7, 30625 Hannover, Germany 3 Institut Paoli Calmettes, IBiSA Cancer Immunomonitoring Platform, F-13009, Marseille, France 4 CNRS, UMR7258, centre de recherche en Cancérologie de Marseille, Marseille, F-13009, France 5 Clinical Tumor Biology and Immunotherapy Unit, Ludwig Center of the University of L ausanne, Switzerland 6 University Hospital Center and University of Lausanne (CHUV), Switzerland. 7 Urology Research Unit, Department of Urology, Lausanne University Hospital (CHUV), Switzerland. * M.L.T, J.P.R., D.O. and L.D. contributed equally to this work. 2 The important role of tumor-specific cytotoxic B cells activation requires several signals via the BCR protozoal DNA, which can be mimicked by synthetic CD8 T-cells (CTLs) is well-defined in the immune upon antigen binding, and via various co-activating oligodeoxynucleotides, such as CpG motifs. Stimula- + control of the tumors but the role of effector CD4 and inhibitory receptors, mostly members of the B7/ tion of TLR9 by CpG motifs initiates the intracellular T-cells is poorly understood. In the current re- CD28 co-receptors family. These molecules regulate MyD88-mediated signaling pathway, resulting in the search we have used a murine retrovirus-induced numerous checkpoints of immune cells functions, release of pro-inflammatory cytokines, and plasma- tumor cell line of C57BL/6 mouse origin, namely regulating differentiation, maturation, adhesion, cytoid differentiation, promoting B cell proliferation, FBL-3 cells, as a model to study basic mechanisms chemotaxis and the release of soluble factors. Several class switch recombination and antibody produc- of immunological control and escape during tumor co-inhibitory receptors have been identified and the tion. In this study we investigated the role of BTLA formation. This study shows that tumor-specific therapeutic blockade of these molecules is in prom- in human B cells. We show that BTLA expression is CD4 T-cells are able to protect against virus-in- ising clinical development. The recently described modulated during B lymphocyte differentiation, with duced tumor cells. We show here that there is an inhibitory receptor B and T lymphocyte attenuator an enhanced expression in IgM memory and transi- + + + expansion of tumor-specific CD4 T-cells produc- (BTLA, CD272) is structurally and functionally related tional B cells. Then, we analyzed BTLA expression by ing cytokines and cytotoxic molecule granzyme B to CTLA-4 and PD-1, and is expressed by the major- B cells in vaccinated melanoma patients. When CpG in the early phase of tumor growth. Importantly, ity of lymphocytes. Interestingly, most BTLA studies were used as adjuvant for vaccination, we observed we demonstrate that in vivo depletion of Tregs and were realized on T lymphocytes. Interaction of BTLA a sustained expression of BTLA, whereas in absence CD8 T-cells in FBL-3-bearing DEREG transgenic with its ligand Herpes Virus Entry Mediator (HVEM, of CpG, a progressive downregulation of BTLA was mice augments IL-2 and granzyme B production CD270) was involved in the inhibition of T-cell pro- found on circulating B cells. Furthermore, we show + liferation and cytokine synthesis. There is only one that BTLA was upregulated and recruited to the BCR T-cell effector and cytotoxic responses leading to study on the role of BTLA in B cells, showing that it in B cells activated in vitro. Finally, we demonstrate the complete tumor regression. Therefore, the ca- regulates B cell receptor signaling. Thus, the implica- that BTLA triggering by HVEM attenuated human pacity to reject tumor acquired by tumor-reactive + + by CD4 T-cells and increases FV-specific CD4 tion of BTLA triggering for human B cells remains B cell proliferation, upregulation of co-stimulatory CD4 T-cells largely depends on the direct suppres- poorly documented. B cells express germline encoded molecules (CD80 and CD86) and production of cy- sive activity of regulatory T-cells. We suggest that + Toll-like receptors (TLRs), which have emerged tokines. Interestingly, chemokine secretion (IL-8 and a cytotoxic CD4 T-cell immune response may be as critical modulators of B cell effector functions, MIP-1beta) was not affected by BTLA/HVEM ligation, induced to enhance resistance against oncovirus- notably in autoimmune diseases or TH1-related in- suggesting that BTLA mediated inhibition is selective associated tumors. flammation. In humans, B cells are the only immune for some but not all B cell functions. Altogether, our population together with the plasmacytoid dendritic data demonstrate that BTLA regulates human B cell cells to express TLR9. TLR9 recognizes hypo-methyl- responses, and has implications for future develop- ated CpG motifs, characteristic of bacterial, viral and ment of therapies modulating B cells. + 102 103 053 | Improving Immunity 054 | Improving Immunity Constitutive activation of the NFkB pathways in DC improves their T-cell stimulatory capacity and IL-12p70 secretion A concomitant interaction of CD4+ T-helper cells, DC, and CD8+ T-cells is required for an effective boosting of tumor antigen-specific CD8+ T-cell expansion 1 2, 3 3 1 1,* 1 1 1 1,* Isabell Pfeiffer , Reinhard Voll , Eva Gückel , Gerold Schuler , Niels Schaft , 1,* and Jan Dörrie Stefanie Böhm , Beatrice Schuler-Thurner , Gerold Schuler , Jan Dörrie , and Niels 1,* Schaft 1 Department of Dermatology, Universitätsklinikum Erlangen, Germany 1 Department of Dermatology, Universitätsklinikum Erlangen, Erlangen, Germany 2 Division of Rheumatology and Clinical Immunology & Centre for Chronic Immunodeficiency, University Medical Centre, Freiburg, Germany * Share senior authorship 3 Medizinische Klinik 3, Universitätsklinikum Erlangen, Germany * Contributed equally + IL-12p70, we co-cultured the transfected DC with The necessity of CD4 T-cell help during priming CD8 T-cells and DC. Emulation of a sequential in- in the induction of full maturation of dendritic cells agonistic soluble CD40 ligand (sCD40L). We added for an effective secondary expansion of antigen- teraction, in which DC initially interacted with the + T-cells was already examined in + sCD40L immediately or 24 h after electroporation to specific CD8 tory capacity. Given that tumor-antigen-loaded the DC-cultures. This did not increase the secretion the murine system. In addition, a great influence mature DC are a promising tool to induce signifi- of IL-12p70, but unlike expected, the sCD40L-addi- of CD4 cant numbers of high quality effector and memory tion even reduced the quantity of secreted IL-12p70 lasting and robust immune response was also cor- capacity to prime and expand the CD8 T-cells, we investigated the influence of the expres- when sCD40L was given directly after electropora- roborated in mice. Two distinct T-cell help models A concomitant interaction of all three cell types, sion of constitutively active mutants of activators of tion. No effects were detected, when sCD40L was have been proposed: the sequential two-cell inter- where CD4 the NFkB-pathways, with the main aim to improve supplemented 24 h after electroporation. action model and the three-cell interaction model. co-culture, still had no influence on the priming the stimulatory capacity and their applicability in Subsequently, we investigated the capacity of DC However, these models were never investigated capacity. However, upon re-stimulation (2 + T-cell help on the generation of a long- CD4 T-cells, which were then removed by flow (DC) and is thus relevant for their T-cell stimula- cytometry sorting, and subsequently encountered + CD8 T-cells did not significantly enhance the DC’s + + rd T-cells. T-cells were not removed from the nd and stimulation), an obviously superior antigen- cancer immunotherapy. Therefore, we transfected transfected with the NFkB-pathway activators to systematically in the human system. Thus, the de- 3 cytokine-cocktail-matured DC with RNA coding prime and expand autologous T-cells antigen-spe- velopment of an experimental in vitro system by specific CD8 T-cell expansion was detected. This for constitutively active mutants of activators of the cifically. A clear superiority was seen upon restim- which both models can be emulated, regarding the improved expansion was only assessable when classical (IKKb) as well as the alternative (IKKa) ulation of the T-cells, while no advantage was ob- interaction between human dendritic cells (DC), both epitopes, the helper epitope and the CD8 NFkB-pathway. The expression of the constructs led to up-regulation of distinct favorable surface rd served during priming. After the 3 stimulation, we achieved a ten-fold higher rate of antigen-specific + + + CD4 , and CD8 T-cells, is desirable. + epitope, were present by the same DC. Further+ + We equipped ex vivo generated bulk CD4 T-cells more, antigen-specific CD8 T-cells generated by markers (CD25, CD40, CD70, CD83, CD86, and CD8 T-cells in comparison to the control cytokine- with a gp100-specific TCR by RNA electroporation. providing help in the three-cell setting maintained OX-40L) and to an increased secretion of several cocktail-matured DC transfected with the antigen These cells were co-incubated with gp100-peptide- CD27 expression, which already indicates a pre- loaded DC to elucidate the antigen-specific cross- memory formation upon the 1 stimulation. + T-cells st pro-inflammatory cytokines (IL-6, IL-8, TNF, and mRNA only. The antigen-specific CD8 IL-12p70). Further, we detected that the density of generated by stimulation with IKK-transfected DC talk between CD4 T-cells and DC. A clear Th1 In conclusion, our human in vitro system permit- the expressed surface markers and the quantity also maintained CD27 expression longer, indicat- cytokine secretion, as well as the antigen-specific ted the comparison of both models and revealed of secreted cytokines correlated with the quantity ing the generation of T-cell memory. Furthermore, up-regulation of maturation markers (CD25, CD40, that that a simultaneous interaction of all three of transfected RNA. However, we also observed a the expanded T-cells were able to secrete IFNγ in CD80, CD86, and CD70) on both immature (iDC) cell types improved CD8 T-cell expansion when high donor to donor variation. response to Ag-loaded T2-A1 cells. and mature (mDC) DC, and the up-regulation of ac- the DC presents both epitopes. Consequently, this + + + Transfected DC produced high IL-12p70 quanti- Recapitulatory, transfection of constitutively active tivation markers (CD25, CD69) on CD4 T-cells was human in vitro model can serve as a tool for further ties. In contrast, the immunosuppressive cytokine activators of the NFkB pathways led to an ame- observed in a time-dependent manner. Decreasing investigations concerning T-cell help. IL-10 was secreted in very low quantities. This DC lioration of the DC by enhancing critical features: the number of helper cells resulted in a reduction of phenotype should efficiently drive T-cells towards (i) phenotype (up-regulation of co-stimulatory both antigen-specific up-regulation of maturation Th1-type immune responses. Additionally, the DC molecules), (ii) cytokine secretion (increased and markers and Th1 cytokine secretion. transfected with both activators still secreted IL- prolonged IL-12p70, with low IL-10 secretion, and To investigate whether this antigen-specific cross- 12p70 even 48 h after electroporation. sustained migratory capacity), and (iii) elevated talk between DC and CD4 To investigate whether the transfected DC still have capacity to expand autologous antigen-specific on the priming and re-stimulation of CD8 T-cells, the ability to respond to extracellular signals with T-cells with a favorable phenotype. we mimicked both the sequential two-cell and the an increased secretion of cytokines, especially 104 + Activation of the NFkB-pathways is a key process + T-cells has an effect + + simultaneous three-cell interaction of CD4 and 105 055 | Improving Immunity 056 | Improving Immunity Non-toxic application of paclitaxel reduces chronic inflammation and abrogates myeloid derived suppressor cell activity in ret transgenic melanoma bearing mice CD86 and IL-12p70 are key players for T helper 1 polarization and NK cell activation by TLR-matured dendritic cells 1 1 2 1 Alexandra Sevko , Tillmann Michels , Michael Shurin , Viktor Umansky 1 German Cancer Research Center and University Hospital Mannheim, Heidelberg, Germany, 2 University of Pittsburgh Medical Center, Pittsburgh, Pennsylvania, USA 106 1 1 1 1 Bettina Otte , Felix S. Lichtenegger , Katharina Mueller , Barbara Beck , Wolfgang 1 2 1 Hiddemann , Dolores J. Schendel , and Marion Subklewe 1 Department of Internal Medicine III, Klinikum der Universität München, Munich, Germany 2 Institute of Molecular Immunology, Helmholtz Zentrum München, German Research Center for Environmental Health, Munich, Germany Melanoma is one of the most rapidly growing of p38 MAPK in MDSC by intracellular staining of Dendritic cells (DCs) are important regulators of the vation, especially in cancer immunotherapy. The cancers in the world. This is a highly immuno- phosphorylated protein on threonine 180 and tyros- human immune response. By means of direct in- described effects of this type of DCs particularly genic tumor but also highly immunosuppressive. ine 705. The intracellular accumulation of TNF-α tercellular interactions and secretion of cytokines, depend on their high CD86 expression and IL-12p70 Moreover, melanoma is known to be resistant to and S100A9 was chosen as a read-out system of al- they can induce a stimulatory or a regulatory re- secretion. conventional chemotherapy, which aggravates im- terations downstream to p38. Activation of p38 was sponse, depending on the environment in which munosuppression. There are accumulating evi- strongly down-regulated after paclitaxel treatment they developed. In vitro, it is possible to imitate the dences that immunosuppression in melanoma is in tumor-infiltrating MDSC as well as MDSC from development of DCs from monocytes, and the com- driven by chronic inflammation that induces an the bone marrow and spleen of tumor-bearing mice position of the maturation cocktail used strongly accumulation and activation of myeloid derived as compared to untreated control. The number of impacts on the function of resulting DCs. suppressor cells (MDSC). Recently, we have dem- tumor-infiltrating MDSC producing TNF-α was sig- In order to increase insight into their stimulatory onstrated that non-toxic application of paclitaxel, nificantly decreased in paclitaxel treated tumor- effects and the importance of the different signals, clinically approved chemotherapeutic, stimulated bearing mice as compared to untreated control. we compared DCs matured by a TLR agonist-based dendritic cell (DC) and natural killer (NK) cell ac- As p38 is also involved in signaling pathways acti- cocktail head-to-head with those generated from tivity, maintained specific T-cell responses, dimin- vated by secreted S100A8/A9 in autocrine manner, the same healthy donors by the standard combina- ished numbers of immature myeloid cells in wild- we evaluated the intracellular expression of S100A9 tion of proinflammatory cytokines or by the im- type mice and drives MDSC differentiation towards as a representative of the S100A8/A9 complex. A munoregulatory cytokine IL-10. We could show DC in vitro. Furthermore, ultra-low dose paclitaxel significant reduction in the number of tumor-in- that TLR-induced DCs differed from other DC induces anti-tumor immune responses in mouse filtrating MDSC expressing S100A9 was found. No subsets by a predominance of costimulatory rela- transplantable tumor models without direct toxic changes in p-STAT3 expression (a key player in tive to coinhibitory molecules and by secretion of effects on tumor cells. another signaling pathway, which could regulate high IL-12p70 levels, but no IL-10. Functionally, in Here we used a ret transgenic mouse model of both S100A9 levels and MDSC-mediated immune a coculture with autologous T-cells these signals spontaneous melanoma, which closely resembles suppression) were found after paclitaxel treatment. translated into an increase in activated IFN-γ se- human melanoma regarding histopathology and Next, we demonstrated that the ability of tumor-de- creting Th1 cells, but not Th2 or Th17 cells, while clinical development. rived MDSC from paclitaxel treated animals to sup- the proportion of regulatory T-cells was decreased. We found that administration of paclitaxel at ultra- press proliferation of activated T-cells is markedly This T-cell activation and polarization was depend- low, non-toxic doses induced a down-regulation reduced as compared to those from untreated mice. ent on IL-12p70 as well as CD86, but remarkably not of various mediators of chronic inflammation like Based on our data, we suggest that that the abro- on CD80 signaling. Besides, TLR-induced DCs were TGF-β, GM-CSF, IL-1β, IL-5, IL-10, IL-13, TNF-α and gation of MDSC immunosuppressive activity and capable of activating NK cells, this capacity being IFN-γ in tumors from treated mice as compared down-regulation of chronic inflammation leads to dependent on secretion of IL-12p70 by DCs. to the control non-treated group. Since all these restoration of CD8 T-cell-mediated We conclude that DCs matured with this TLR factors are necessary for MDSC expansion and agonist-based cocktail are highly suitable for ap- activation, and are related p38 MAPK signaling plication in immunotherapeutic strategies that rely in myeloid cells, we analyzed an activation status on a strong type 1 polarization and NK cell acti107 057 | Improving Immunity 058 | Improving Immunity Prestimulation with 2-Hydroxy-Octadecylphosphocholine inhibits the Cytokine Secretion of Monocyte-derived Dendritic Cells matured with Dendrophilin A201 and IFN-γ without Changing their TH1-Polarisation Paclitaxel potentiates endotoxin-induced maturation of human monocyte-derived dendritic cells under serum-free condition 1 2 3 4 1 2 3 4 Bernd Hildenbrand , Frank Neumann , Dirk Lorenzen , Boris Müller-Hübenthal , 5 6 6 1 1 Michael Huber , Marina Freudenberg , Chris Galanos , Hans-Helge Bartsch , Marc Azemar Bernd Hildenbrand , Frank Neumann , Dirk Lorenzen , Boris Müller-Hübenthal , 5 6 6 1 1 Michael Huber , Marina Freudenberg , Chris Galanos , Hans-Helge Bartsch , Marc Azemar 1 Tumor Biology Center,Clinic for Medical Oncology, 79106 Freiburg, Germany 1 Tumor Biology Center,Clinic for Medical Oncology, 79106 Freiburg, Germany Innaxon, Tewkesbury Business Park, GL20 8SD Tewkesbury, United Kingdom 2 Innaxon, Tewkesbury Business Park, GL20 8SD Tewkesbury, United Kingdom Institute for Tumour Therapy, 37115 Duderstadt, Germany 3 Institute for Tumour Therapy, 37115 Duderstadt, Germany Centre of Integrative Oncology, Paracelsus-Spital, 8805 Richterswil, Swiss 2 3 4 Centre of Integrative Oncology, Paracelsus-Spital, 8805 Richterswil, Swiss 4 5 Department of Biochemistry and Molecular Immunology, Institute of Biochemistry and Molecular Biology, RWTH Aachen University, 52074 Aachen 5 Department of Biochemistry and Molecular Immunology, Institute of Biochemistry and Molecular Biology, RWTH Aachen University, 52074 Aachen 6 Max-Planck-Institute of Immunobiology,79108 Freiburg, Germany 6 Max-Planck-Institute of Immunobiology,79108 Freiburg, Germany Introduction: Lysophosphatidylcholine (LPC) is a pre-incubation of immature MoDCs with R-OH fol- Introduction: Paclitaxel (PTX), a clinically estab- lipid signalling messenger molecule, which exhib- lowed by maturation with DEN A201 ± IFN-γ led to lished chemotherapeutic agent, does not act only as their TH1-polarisation. its potent pro-inflammatory activities and can effi- twice as high an up-regulation of CD83, which was by cytotoxicity, but also has immunomodulatory Conclusion: The pre-incubation of human MoDCs ciently stimulate immune cells, such as macrophag- associated with a strong inhibition of cytokine pro- activity [1]. While in the long run, PTX leads to a with non-toxic concentrations of PTX led to an es or dendritic cells (DCs) [1]. The R-configured duction. Whereas LPC enhanced TH2-polarisation broad immunosuppression, the intravenous appli- exponential increase of sCD14-secretion and thus enantiomer of 2-Hydroxy-octadecylphosphocholine after maturation by DEN A201 even in the presence cation of PTX can be associated with strong inflam- enhanced the maturation of MoDCs with S-LPS ± (R-OH) on the other hand has been shown to be a of IFN-γ, pre-incubation of MoDCs with R-OH still mation, especially in patients suffering from (sub-) IFN-γ in serum-free medium. Therefore, our results competitive inhibitor of cellular LPC-reacylation and enhanced the TH2-polarisation when matured with acute bacterial infection. To further elucidate this indicate, that strong inflammation, often observed to possess anti-tumour activity [2]. In this study we DEN A201 alone, however, did not alter the strong clinical phenomenon, we investigated the effect of in patients after treatment with PTX in the presence investigated whether R-OH could serve as a potential TH1-polarisation seen previously after maturation PTX on human monocyte-derived dendritic cells of a sub-acute bacterial infection could, at least par- inhibitor of DC-mediated inflammatory processes by with DEN A201 in the presence of IFN-γ [3]. (MoDCs) matured with either R- or S-Lipopolysac- tially, be explained by the increased presence of analyzing its influence on the maturation and/or cy- Conclusion: Pre-incubation of immature MoDCs charide (LPS) under serum-free conditions. sCD14. tokine production of human monocyte-derived DCs with R-OH at non-toxic concentrations [10-20µM] Methods: MoDCs were generated in serum-free (MoDCs) stimulated with the TLR4 agonist Dendro- efficiently inhibits the cytokine secretion by MoDCs medium supplemented with GM-CSF and IL-4 for 5 philin A201 (DEN A201) in the presence or absence matured with DEN A201 and IFN-γ without chang- days pre-treated with PTX (0,1-10 µM) over a period of Interferon-gamma (IFN-γ). ing their IL-10/IL-12p70 ratio or TH1-polarisation. of 0 h, 24 h or 48 h and matured for 24 h with LPS Methods: Immature human MoDCs were generated Moreover, R-OH enhanced the up-regulation of both (either R- or S-form) ± IFN-γ. MoDCs were phe- in serum-free medium supplemented with GM-CSF co-stimulatory cell surface molecules and the matu- notypically characterised by flow cytometry and and IL-4 for 5 days and matured for additional 24 ration marker CD83, which may potentiate anti-tu- cytokine-profiled by ELISA for secreted IL-6, IL-10, hours with DEN A201 ± IFN-γ. R-OH or LPC (as a mour immune responses in vivo. IL12p70 and soluble CD14 (sCD14). cally characterised by FACS and cytokine-profiled by ELISA for secreted IL-6, IL-10 and IL12p70 (biological active). Results: Immature MoDCs showed enhanced upregulation of the co-stimulatory molecules CD80 and CD86 when incubated with LPC [10–50µM] or R-OH [10–20µM] over a period of more than 24 hours in serum-free medium. However, compared to LPC, 108 [1] Javeed A, Ashraf M, Riaz A, Ghafoor A, Afzal S, Mukhtar MM. Paclitaxel and immune system. Eur J Pharm Sci. 2009;38:283 Results: In contrast to R-form LPS, S-form (wild- control) was added 24 hours before or simultaneously with DEN A201. Matured MoDCs were phenotypi- IFN-γ enhanced both maturation of MoDCs as well [1] Coutant F, Laure PC, Agougne S, Delair T, Andre P, Lotteau V. Mature dendritic cell generation promoted by Lysophosphatidylcholine. J. Immunol. 2002;169:1688-95 [2] Hildenbrand B, Kley JT, Haberstroh F, Freudenberg MA, Azemar M, Unger C, Massing U. Cytotoxic Efficacy and Influence on Cellular Phospholipid Metabolism of 2-Hydroxyand 2-O-Acetyl-Octadecylphospho-cholines. Anticancer Res. 2006;26(6):4255-62 [3] Hildenbrand B, Lorenzen D, Sauer B, Hertkorn C, Freudenberg MA, Peters JH, Nesselhut T, Unger C, Azemar M. IFN-y enhances T(H)1 polarisation of monocyte-derived dendritic cells matured with clinical-grade cytokines using serum-free conditions. Anticancer Res. 2008;28(3A):1467-76. type) LPS did not induce the maturation of MoDCs under serum-free conditions. Pre-incubation with PTX or addition of sCD14 increased the sensibility of MoDCs to S-LPS dramatically. Non-toxic concentrations of PTX induced an exponential increase of sCD14 in the supernatant. Therefore, MoDCs pre-treated with PTX and stimulated with S-LPS showed phenotypic and functional characteristics of fully matured MoDCs. Moreover, the addition of 109 059 | Improving Immunity 060 | Improving Immunity The bacterial preparation OK432 induces IL-12p70 secretion in human dendritic cells in a TLR3 dependent manner Zoledronic acid-treated monocytes augment TRAIL-mediated cytotoxicity of human NK cells Arnt-Ove Hovden, Marie Karlsen, Roland Jonsson, Silke Appel Andreas Lundqvist, Padraig D’Arcy, Erik Wennerberg, Dhifaf Sarhan Broegelmann Research Laboratory, The Gade Institute, University of Bergen, Bergen, Norway Karolinska Institutet, Department of Oncology-Pathology, Cancer Center Karolinska, Stockholm, Sweden Dendritic cells (DC) used in therapeutic cancer im- Natural killer (NK) cells are innate lymphocytes treatment was not observed, suggesting that IFN- munotherapy have to be able to stimulate T-cells re- able to directly kill tumor cells through ligation of gamma produced by monocytes is responsible for sulting in an immune response that can efficiently TNF-related apoptosis-inducing ligand (TRAIL) re- the increase in TRAIL expression on NK cells. In target the cancer cells. One of the critical hurdles ceptors. However, peripheral blood NK cells express vivo, a significant delayed tumor progression was has been the lack of IL-12p70 production when low levels of TRAIL and are unable to kill TRAIL observed in tumor-bearing SCID/beige mice when maturating the DC, which is rectified by using sensitive tumors. Zoledronic acid (ZA) is a bisphos- treated with ZA-primed NK cells compared to mice the bacterial preparation OK432 (killed Streptococ- phonate known to up-regulate expression of TRAIL treated with unprimed NK cells (p=0.015). These cus pyogenes, trade name Picibanil) to mature the on human gamma-delta T-cells. We investigated findings represent a novel approach to augment cells. In order to identify the mechanism behind whether exposure to ZA would result in similar NK cell-mediated tumor cytotoxicity that could be OK432 stimulation of DC, we investigated the con- changes in human NK cells. No change in expres- used to potentiate anti-cancer effects of adoptively tribution of different Toll-like receptors (TLR) to sion of TRAIL was observed on purified NK cells infused NK cells in patients with cancer. examine their involvement in IL-12p70 production. when treated with ZA. However, when co-cultured By combining different inhibitors of TLR signaling, with monocytes, treatment with ZA resulted in a we could demonstrate that TLR3 is responsible for significant up-regulation of TRAIL expression on the IL-12p70 production of DC induced by OK432. NK cells (p=0.01). Consequently, exposure to ZA Moreover, our data suggest that the ligand trig- resulted in a significant increase in NK cell-mediat- gering IL-12p70 secretion upon TLR3 stimulation ed tumor cytotoxicity in vitro (p<0.0001). In block- is sensitive to proteinase and partly also RNAse ing experiments, neutralizing antibodies to TRAIL treatment. The fact that a bacterial compound like significantly reduced the killing of ZA-primed NK OK432 can activate the TLR3 pathway in human cells. Furthermore, in presence of concanamycin A, DC is a novel finding. OK432 demonstrates a criti- the level of cytotoxicity by ZA-primed NK cell was cal ability to induce IL-12p70 production, which reduced, suggesting also perforin-mediated killing is of great relevance in DC based cancer immuno- is enhanced upon exposure to ZA. The increase in therapy. TRAIL expression on NK cells was not dependent on cell contact with monocytes since TRAIL was up- (Hovden et al., PLoS One. 2012;7(2):e31217) regulated in transwell assays following treatment with ZA. When screened for cytokine production by Luminex and ELISA, monocytes exposed to ZA had an increased production of IFN-gamma. In assays where neutralizing antibodies to IFN-gamma was present, increase in TRAIL expression following ZA 110 111 061 | Improving Immunity 062 | Improving Immunity Activation of the human immune system via Toll-like receptors by the oncolytic parvovirus H-1 and its combination with targeted agents Virus-specific CD8+ T-cells up-regulate PD-1 expression during acute Friend retrovirus infection but are highly cytotoxic and control virus replication 1 1 1 2 3 1 2 1 1 Maike Sieben , Susanne Roth , Franziska Springsguth , Christiane Dinsart , Jean Rommelaere , 1 1 Peter R. Galle , Markus Moehler Gennadiy Zelinskyy , Lara Myers , Kirsten K. Dietze , Kathrin Gibbert , 3 2 1 Volker Teichgräber , Kim J Hasenkrug & Ulf Dittmer 1 First Department of Internal Medicine, University Medical Center of the Johannes Gutenberg University Mainz, Langenbeckstr. 1, 55131 Mainz, Germany 1 Institute for Virology, University Hospital Essen, University of Duisburg-Essen, Essen, Germany. 2 Infection and Cancer Program, Department F010, and 2 3 Institut National de la Santé et de la Recherche Médicale Unité 701, German Cancer Research Center, Im Neuenheimer Feld 242, 69120 Heidelberg, Germany Laboratory of Persistent Viral Diseases, Rocky Mountain Laboratories, NIAID, NIH, Hamilton, MT 59840, USA. 3 National Center for Tumor Diseases, University Hospital Heidelberg, Heidelberg, Germany The therapeutic use of oncolytic viruses in patients which correlated with NFκ B translocation to the It was reported that inhibitory molecules such as with malignancy is a promising area of investiga- nucleus. Using a TLR-signaling reporter plasmid PD-1 were up-regulated on CD8 tion since they also increase the host immune re- (pNiFty-Luc), NFκ B activity, assessed by increased chronic immune response, and that the cells were sponse by priming effector immune cells against expression of an NFκ B-inducible reporter gene, prematurely exhausted and dysfunctional in vitro. the tumors. To date the role of Toll-like receptors was increased following H-1PV infection. In addi- The current study shows that most activated CD8 (TLRs) in the recognition of parvovirus H-1 (H-1PV) tion, human DCs coincubated with H-1PV-infected T-cells up-regulated expression of PD-1 during and the activation of the host immune system has SK29Mel TCLs demonstrated increased TLR3 and acute infection and revealed a dichotomy of func- not been characterized. TLR9 expression. Furthermore DC co-cultures tion between PD-1hi and PD-1lo subsets. More Aims: We aimed to investigate the function of TLRs with H-1PV-induced TCL combined with sunitinib PD-1lo cells produced anti-viral cytokines such as during oncolytic H-1PV-induced human immune induced effective immune stimulation. Cytokine IFNγ and TNFα, while more PD-1hi cells displayed responses. The role of TLRs in the activation of the levels increased after coculture of DCs stimulated characteristics of cytotoxic effectors such as pro- NFκ B transcription factor was characterized and by H-1PV-infected and sunitinib treated TCLs. duction of granzymes and surface expression of the immunologic effects of H-1PV-induced tumor These data suggest that H-1PV-induced TCLs stimu- CD107a. Importantly, CD8 T-cells mediated rapid cell lysates (TCL) on human antitumor immune re- late human DCs at least in part through TLR-de- in vivo cytotoxicity and were critical for control of sponses were evaluated. Furthermore we explored pendent signaling pathways. Thus, DC maturation acute Friend virus replication. Thus direct ex vivo the molecular interactions and synergistic effects occurred through exposure to H-1PV-induced TCLs analyses and in vivo experiments revealed high between H-1PV, and the targeted agent sunitinib. through TLR-signaling leading to NFκ B-dependent CD8 Methods: Human embryonic kidney cells (HEK293) activation of the adaptive immune system as indi- expression during acute infection is not a marker transfected to stably express TLRs were used to cated by the increased expression of CD86, TLR3 of T-cell exhaustion. further investigate the role of specific TLRs during and TLR9. Thus H-1PV oncolytic virotherapy en- immune activation. A human ex vivo model, hances immune priming by different effects on DCs HLA-A2-positive line and generates antitumor immunity. Furthermore, (SK29Mel) was used to study immune responses combined treatment with targeted agents did not with corresponding HLA-restricted human den- interfere with the pronounced immunomodulatory dritic cells (DCs). Furthermore our human mela- properties of H-1PV, but reinforced drug-induced noma model enables to study the immune respons- tumor cell killing. These findings potentially offer es in the context of corresponding HLA-restricted a new approach to tumor therapy. human melanoma cell + T-cells during + + + T-cell functionality and indicate that PD-1 human DCs after treatment with H-1PV-induced and sunitinib treated TCLs. Results: In TLR-transfected HEK293 cells TLR3 and TLR9 were activated by H-1PV infection, 112 113 063 | Improving Immunity 064 | Improving Immunity Synergistic augmentation of CD40-mediated activation of antigen-presenting cells by amphiphilic poly(γ-glutamic acid) nanoparticles Inhibition of tumor immunity by tumor-infiltrating CD4+ regulatory T-cells in patients with primary and metastatic liver cancer can be abrogated by soluble GITR-ligand 1 2 1 2 3 1 1 2 2 Sissela Broos , Linda C Sandin , Jenny Apel , Thomas H Tötterman , Takami Akagi , 3 1 1 1 Mitsuru Akashi , Carl AK Borrebaeck , Peter Ellmark , Malin Lindstedt Jaap Kwekkeboom , Alexander Pedroza-Gonzalez , Cornelis Verhoef , Jan N.M. IJzermans , 1 1 1 Maikel P. Peppelenbosch , Harry L.A. Janssen and Dave Sprengers . 1 Department of Immunotechnology, Lund University, Lund, Sweden 1 2 Department of Immunology, Genetics and Pathology, Uppsala University, Uppsala, Sweden 3 Department of Applied Chemistry, Graduate School of Engineering, Osaka University, Japan Agonistic anti-CD40 monoclonal 2 Department of Gastroenterology and Hepatology, and Department of Surgery, Erasmus MC-University Medical Centre, Rotterdam, Netherlands antibodies The mechanisms that enable liver cancer to escape immunity, and we propose that sGITRL may consti- (mAbs) hold great potential for cancer immuno- elimination by the immune system remain unclear, tute a rational treatment for this disease. therapy. However, systemic administration of anti- but their elucidation may provide novel options for CD40 mAbs can be associated with severe side- therapeutic intervention. We investigated the influ- effects, such as cytokine release syndrome and ence of tumor-infiltrating regulatory T-cells (Treg) liver damage. With the aim to increase the immu- on tumor-specific CD4 nostimulatory potency as well as to achieve local tients with liver cancer, using ex vivo isolated cells drug retention of anti-CD40 mAbs, we linked an from individuals with hepatocellular carcinoma agonistic mAb to immune activating amphiphilic (HCC) or liver metastases from colorectal cancer poly(γ-glutamic acid) nanoparticles (γ-PGA NPs). (LM-CRC). In both HCC and LM-CRC, CD4 T-cells We demonstrate that adsorption of anti-CD40 mAb display impaired tumor-specific responses com- to γ-PGA NPs (anti-CD40-NPs) improved the stimu- pared to CD4 T-cells isolated from tumor-free liver latory capacity of the CD40 agonist, resulting in tissue or blood. We found that CD4 CD25 Foxp3 up-regulation of co-stimulatory CD80 and CD86 on Treg accumulate in both types of tumors, and are antigen-presenting cells, as well as IL-12 secretion. more potent suppressors of autologous tumor- Interestingly, anti-CD40-NPs induced strong syner- specific CD4 T-cell responses than Treg isolated gistic proliferative effects in B cells, possibly result- from blood. In LM-CRC, where Treg accumulation ing from a higher degree of CD40 multimerization, is most prominent, we found elevated Ki-67 ex- enabled by display of multiple anti-CD40 mAbs pression in tumor Treg compared to Treg isolated on the NPs. In addition, local treatment with anti- from tumor-free liver tissue or blood, suggesting CD40-NPs, compared to only soluble CD40 agonist, local proliferation of Treg at the cancer site. In both resulted in a significant reduction in serum levels tumors, tumor Treg show up-regulated expression of IL-6, IL-10, IL-12 and TNF-α in a bladder cancer of glucocorticoid-induced tumor necrosis factor re- model. Taken together, our results suggest that an- ceptor (GITR) compared to Treg in tumor-free liver ti-CD40-NPs are capable of synergistically enhanc- tissue and blood. Treatment with soluble GITR ing the immunostimulatory effect induced by the ligand (sGITRL) induces a decrease in the suppres- CD40 agonist, as well as minimizing adverse side- sion mediated by the tumor-infiltrating Treg, and effects associated with systemic cytokine release. restores the proliferative capacity and cytokine pro- This concept of nanomedicine could play an im- duction of CD4 CD25 T-cells. portant role in localized immunotherapy of cancer. Conclusion: Our results show that local accumu- + T-cell responses in pa- + + + + + + + - lation of Treg in liver cancer restrains anti-tumor 114 115 065 | Improving Immunity 066 | Improving Immunity The Chemotherapeutic Compound 2-Deoxy D-Glucose Prevents Cell Surface Expression of NKG2D Ligands through Inhibition of N-Linked Glycosylation Direct immunomodulatory effects of zoledronic acid on NK cells in Ewing sarcoma 1 1 Sarah Line Skovbakke , Lars Andresen , Gry Persson, Michael Hagemann-Jensen, Karen Aagaard Hansen, Helle Jensen, and Søren Skov Department of Biomedicin, Faculty of health and medical sciences, University of Copenhagen, 1870 Frederiksberg C, Denmark 1 S.L.S. and L.A. contributed equally to this work 116 Sarah-Kristin Müller, Christiane Chen, Bianca Altvater, Sareetha Kailayangiri, Sibylle Pscherer, Martina Ahlmann, Sibylle Mellinghoff, Uta Dirksen, Heribert Juergens, Claudia Rossig University Children´s Hospital Muenster, Department of Pediatric Hematology and Oncology, Muenster, Germany NKG2D ligand surface expression is important surface expression. Cancer and infection often The aminobisphosphonate zoledronic acid (ZA) IL-2. Activated NK cells effectively interacted with for immune recognition of stressed and neotrans- result in aberrant glycosylation, which could likely can induce apoptosis of Ewing sarcoma cells both K-562 leukemia targets and Ewing sarcoma formed cells. In this study, we show that surface be involved in modulation of NKG2D ligand expres- and inhibit primary tumor growth in preclinical cells. The sensitivity of four different Ewing expression of MICA/B and other NKG2D ligands is sion. Our data further imply that chemotherapeutic models. Based on first evidence that zoledronic sarcoma cell lines (VH-64, WE-68, TC-71, and dependent on N-linked glycosylation. use of 2DG may restrict NKG2D ligand surface ex- acid combined with chemotherapy is effective in Cado) to allogeneic NK cells was highly variable, The chemotherapeutic compound 2-deoxy-D-glu- pression and inhibit secretion of immunoinhibitory refractory Ewing sarcoma, the drug has now been but consistent among all five donors. Cytolytic de- cose (2DG) potently inhibited surface expression soluble NKG2D ligands. integrated into the current EWING 2008 treatment granulation responses by CD107a expression were of MICA/B after histone deacetylase inhibitor regimen where its activity is assessed as add-on comparable in the presence and absence of increas- treatment; the inhibition occurred posttranscrip- treatment to adjuvant chemotherapy in a rand- ing concentrations of ZA (0.1-10 µM) throughout tionally without affecting MICA promoter activity. omized manner. A promising experimental strat- various stimulator-to-responder ratios. NK cells Transient overexpression of MICA surface expres- egy for the treatment of cancer is adoptive transfer directly isolated from peripheral blood of three sion was also inhibited by 2DG. 2DG is a known of tumor-reactive immune effector cells. Specifi- donors had substantially lower degranulation re- inhibitor of glycolysis and N-linked glycosylation. cally, Ewing sarcoma cells were remarkably sensi- sponses (<5% CD107a+ cells among CD56+CD3- It blocks N-linked glycosylation by a reversible tive to targeting by activated NK cells. Combina- NK cells) to both K-562 and Ewing sarcoma targets, mechanism that can be alleviated by addition of D- tion strategies of novel drugs and cellular targeting and again, responses were unaffected by the pres- mannose; this does not, however, affect the inhibi- have only recently started to be explored. Besides ence of ZA. We conclude that ZA does not interfere tion of glycolysis. Addition of D-mannose restored their antitumor and antiresorptive effects, amino- with cytolytic NK cell responses to Ewing sarcoma MICA/B surface expression after 2DG treatment. bisphosphonates have immunomodulating effects targets. Ongoing experiments address the immune In addition, specific small interfering RNA-medi- that may contribute to or interfere with their antitu- phenotype and activating receptor expression of ated targeting of glycolytic enzymes did not affect mor activity. Well-described effects include activa- NK cells expanded in the presence and absence of MICA/B surface expression, strongly suggesting tion of γδ T-cells and indirect activation of NK cells ZA. Moreover, NK cell phenotype and function are that N-linked glycosylation, and not glycolysis, is via DC-like cells. Here we investigated whether ZA investigated ex vivo in Ewing sarcoma patients un- essential for MICA/B surface expression. NK cell- directly affects activation and functionality of NK dergoing treatment with ZA compared to matched mediated killing assay and staining with a recom- cells, and whether the drug interferes with cytol- controls. binant NKG2D–Fc fusion protein showed that all ytic responses of NK cells to Ewing sarcoma cells. Our current approach and further studies aimed to functional NKG2D ligands induced by histone dea- NK cell lines were generated from five healthy determine the interactions of novel drugs, targeted cetylase inhibitor treatment were abolished by 2DG donors and two patients with Ewing sarcoma by therapies and immunotherapy may lead to more ef- treatment and fully reconstituted by further addi- a single round of in vitro stimulation of peripheral fective combination strategies. tion of D-mannose. blood mononuclear cells with K562mb15CD137L Our data suggest that posttranslational N-linked stimulator cells and subsequent 10-day expansion glycosylation is strictly required for NKG2D ligand in the presence of 40 IU/ml recombinant human 117 067 | Improving Immunity 068 | Improving Immunity Enhancement of cellular immune response against tumor cells using PAMPs Optimized human Granzyme B based immunotoxin to circumvent the inhibitory potential of SerpinB9 during cancer therapy 1 1 1 2 1 Claudia Maletzki , Ulrike Klier , Saskia Stier , Ernst Klar , Michael Linnebacher 1 Section of Molecular Oncology and Immunotherapy ² Department of General Surgery, University of Rostock, Germany 118 2 3 1 3 Sonja Schiffer, Grit Hehmann-Titt , Theo Thepen , Michael Huhn , Rainer Fischer , 1, 3 Stefan Barth 1 Dept. of Experimental Medicine and Immunotherapy, RWTH Aachen, Helmholtz Institute for Biomedical Engineering, Pauwelsstr. 20, 52074 Aachen, Germany 2 Pharmedartis GmbH, Forckenbeckstrasse 6, 52074 Aachen, Germany 3 Dept. of Pharmaceutical Product Development, Fraunhofer IME, Forckenbeckstr. 6, 52074 Aachen, Germany This study addresses the question of whether strong effects observed in vitro, Taxol and Resiqui- The human origin and its efficient ability to kill shown before (Stahnke et al., 2008) However, the pathogen-associated molecular pattern (PAMP-) mod mediated substantial tumor growth control, even resistant tumor cells puts the potential of apoptosis inducing effect of Gb was significantly substances are applicable as active immunothera- leading to >50 % reduction of tumor volumes. Of Granzyme B (Gb) as part of a “magic bullet” in decreased in PI9 positive targeT-cells. Here, the im- peutic compounds for colorectal cancer (CRC) in note, this was even better than the standard CRC cancer therapy more and more into focus. One of munotoxin Gb-Ki4 was determined. Ki4 is a single vitro and in vivo. chemotherapeutic drug Irinotecan. Raised levels of the major drawbacks of Gb in tumor therapy is the chain variable fragment (scFv) targeting CD30, an Primary human CRC cell lines (HROC40, HROC60, activated CD166+ leukocytes were involved in the expression of Serpin B9 (PI9), the main inhibitor of internalizing tumor antigen highly overexpressed HROC69) were treated with increasing concentra- PAMP-mediated antitumor response. Gb, within many tumor cells. Therefore it is nec- on Hodgkin lymphoma cells. In our group S. Barth tions (0.01 – 10µM) of TLR-agonists (Taxol, Re- Data presented herein prove the therapeutic po- essary to find a variant of Gb which can induce and M. Huhn (Blood 2000) already demonstrated siquimod, LPS, Poly I:C, and CpG ODN) for 24, tential of PAMPs, resulting in both tumor growth apoptosis independently of PI9. the highly potent activity of the first recombinant 48, 72 hours and 7 days. As determined by flow inhibition and potent immune activation. These SerpinB9 belongs to the large superfamily of serine anti-CD30 immunotoxin Ki4-ETA isolated from cytometry, treatment with Taxol resulted in a findings make them very promising candidates for protease inhibitors which regulate several kinds of E. Coli against disseminated Hodgkin lymphoma dose and time-dependent growth inhibition in all further optimization of immune-based therapies. proteases and are involved in processes such as in SCID mice. cell lines (>70 % vs. control). This effect was ac- These include applications as single or combina- tumorigenesis, apoptosis and inflammation. The We evaluated the expression of PI9 in different companied by reduced cell viability (~ 20 % vs. tory agents for active unspecific therapies, adjuvant 42 kDa protein is the main inhibitor of Granzyme CD30 positive cancer cell lines on protein level. control). However, tumor cells were only margin- standard regimens or even as adjuvants in cell- B mainly expressed within cytotoxic T lympho- Prior to cytotoxicity testing SNAP tag technology ally influenced by the remaining PAMPs (Resiqui- based immunotherapies. cytes and natural killer cells but also in endothe- was used to demonstrate the cellular uptake of Ki4. mod > LPS > Poly I:C > CpG ODN) even after 7 lial or epithelial cells. It can protecT-cells against Furthermore we verified that the presence of PI9 in days. The immunostimulatory capacity of PAMPs self-inflicted injury or misdirected Granzyme B CD30 positive targeT-cell indeed prevents apoptosis to mediate antitumoral responses was then ex- (Bots et al., 2006). The pro-apoptotic serine pro- by complexing Gb whereas treatment with Gb-Ki4 plored in co-culture experiments (48h, 72h) using tease Gb is stored in the cytotoxic granules of the led to apoptosis in cells not expressing PI9. The peripheral blood leukocytes from healthy volun- above mentioned effector cells of the innate and main objective of this study was therefore the de- teers. Numbers of residual tumor cells were taken adaptive immune system. It is the main effector velopment of Serpin B9 independent Gb variants. as measure of antitumoral effects. In these co- molecule involved in host rejection of tumor and Using computational approaches we identified po- culture experiments, antitumoral effects were dra- virally infected cells. During the last few years, tential mutants which remain their enzymatic po- matically boosted. Most pronounced effects were many tumor cells have been described to express tential but at the same time are not inhibited by PI9 observed for Taxol (10 µM, 72h) and Resiquimod SerpinB9 in order to escape immune surveillance anymore. Seven different mutants were generated (all concentrations, 72h), with up to 95 % tumor by tumor-infiltrating CTL or NK cells. Promising by site-directed mutagenesis and could successful- cell killing. In a subsequent series of in vivo ex- approaches for targeted tumor therapy, however, ly be expressed secretory in HEK293T-cells with the periments, CT26-tumor carrying Balb/c mice were are Gb based immunotoxins (composed of a cell same yield and stability as the wildtype enzyme. systemically treated with PAMPs (6 injections in specific moiety linked to a cytotoxic part) because All mutants were tested in vitro for their activity in total, twice a week, n=5 per group). Control mice of their human origin not provoking undesirable presence or absence of recombinant PI9. Thus, this received saline (n=5). Tumor growth was moni- immune responses. In our group the potential of a work highly contributes to the optimization of Gb tored for 28 days, lymphocyte subpopulations Gb based immunotoxin directed against CD64-pos- based immunotoxins and improves its possibility were examined from blood samples. Similar to the itive malignancies like AML has successfully been to become clinically relevant in the near future. 119 069 | Improving Immunity 070 | Improving Immunity CTLA-4 antibodies Tremelimumab and Ipilimumab overcome tumor-mediated immunsuppressive effects on human dendritic cells Targeting of Macrophage Galactose-type C-type Lectin (MGL) induces DC signaling and activation 1 1 1 1 1 K. Göpfert , P. Schäfer , M. Sieben , H. Jonuleit , H. Dally³, F. Hermann², P. R. Galle , 1 M. Moehler 1 University Medical Center of the Johannes Gutenberg University Mainz, Langenbeck-Street 1, Mainz 2 Bristol-Myers Squibb, München, Arnulfstr. 29 3 Pfizer Pharma GmbH, Berlin, Linkstr. 10 1 1 1 1 Department of Experimental Medicine, “Sapienza” University, Rome, Italy 2 Center for Glycomics, Department of Cellular and Molecular Medicine and School of Dentistry, University of Copenhagen, Denmark 3 Department of Molecular Medicine “Sapienza” University, Rome, Italy Tumors have distinct mechanisms to circumvent place four hours prior coculture of Tregs with iDCs Dendritic Cells (DCs) are the most potent antigen homo-dimers on DC plasma membrane, promotes the human immune system. Expression of CTLA-4 by adding 2µg/ml anti-CD3 and 2µg/ml anti-CD28. presenting cells and are employed in cancer vacci- the phosphorylation of Erk 1/2 MAP kinases and (cytotoxic T-lymphocyte-associated antigen 4) on The human Sk29Mel melanoma cells clearly ex- nation. Several receptors are being studied in order triggers NFkB classical pathway. The activation of tumors and regulatory T-cells (Tregs) can lead to pressed CTLA-4 on the surface, measured by extra- to identify strategies that combine the cross-presen- intracellular signals leads to DC phenotypic matu- suppression of immune defence mechanisms. So and intracellular FACScan analyses. In coculture, tation of the antigen to optimal DC activation. The ration, with a concomitant reduction of phagocyto- far CTLA-4-mediated blockage of human dendritic the oncolytic parvovirus H1-infected (H-1PV) C-type lectin Macrophage Galactose type C-type sis and an enhanced migration capacity (25-30%). cells (DCs) by CTLA-4 expressing tumors have not SK29Mel cell lysates induced maturation of iDCs. Lectin (MGL), expressed by DCs, is a receptor in- After MGL activation, DCs induce a strong prolif- been analysed in vitro or ex vivo models. As CTLA-4 Using ELISA for determining cytokine release we volved in the recognition of GalNAc (Tn)-carrying eration of allogeneic T-cells and stimulate a strong receptors can be blocked efficiently by new CTLA-4 could also show an increase in TNF-α release but antigens. We previously demonstrated that the CD8 and CD4 T-cell-mediated IFNgamma produc- antibodies tremelimumab or ipilimumab, we ana- we are unable to show strengthening by adding tumour-associated antigen (TAA) Tn-MUC1 inter- tion. These results demonstrate that MGL engage- lysed these antibodies in our ex vivo human mela- tremelimumab or ipilimumab. The further adding nalized through MGL was cross-processed by DCs ment profoundly affects DC plasticity inducing and noma model for their effects on maturation of DCs of cytototoxic T lymphocytes (CTL) showed also an when administered as glycopeptide (MUC19Tn, 60 directing a Th1 immune response. Moreover, MGL and their role on Tregs. H-1PV addicted increase in IFNγ and no accessorily mers), while remained blocked in HLA class II com- receptor expressed on human DC can be targeted Tregs were isolated from human Buffy coats from effect of ipilimumab and tremelimumab. partment when used as glycoprotein (320 mers). In by glycopeptide based vaccines with adjuvant ac- HLA-A2 restricted donors with magnetic beads In our second part we tried to overcome the nega- this study, we investigated the possibility of stimu- tivity and tumour specificity. and monocytes were isolated using adherence. For tive effect of Tregs on DC maturation. Here, we lating MGL receptor to increase DC performance by differentiation of monocytes into immatured DCs found an increase in IL-6 and decrease in TGF-β in using the MUC19Tn as a model of Tn-TAA and the (iDCs), monocytes were stimulated with IL-4 and the supernatants after coincubation with tremeli- anti-MGL antibody (MLD-1) as a classical receptor GM-CSF and maturation of iDCs was induced by mumab or ipilimumab. Icreased IL-6 and decreased binder. a cytokine cocktail (CC), containing 0,01µg/ml TG-β correlates with a pro-inflammatory milieu and DCs were derived from PBMCs of 6 healthy donors TNFα,IL-6, IL-1β and 1µg/ml PGE2. The Parvovi- stronger T-cell activation and proliferation. The in- and were analyzed before and after MGL engage- rus induced tumor cell lysis was used as model to hibiting effect of Tregs on matured DCs cannot be ment using MUC19Tn and MLD-1, as stimulators. show the induction of specific antiumor immune abrogated by tremelimumab and ipilimumab. DC phenotype, endocytosis, migration and IL-10/ responses (Moehler et al. HGT 2005). Parvovirus To our knowledge this is the first direct analysis that IL-12 secretion were evaluated by cytofluorimetry. H1-infected and uninfected Sk29Mel melanoma tremelimumab and ipilimumab can partially over- Allo T-cell-stimulating capacity and IFNgamma cells were cocultured with iDCs with or without come the negative feedback of Tregs on human DCs. T-cell production were estimated by H-thymidine tremelimumab (10µg/ml) and with or without ip- These results clarify the importance of CTLA-4 as uptake and ELISpot assay, respectively. DC intra- ilimumab (10µg/ml) in a ratio of 1:3 for 3 days. therapeutical goal for treatment of human tumours cellular signaling and MGL oligomerization were Tregs were cultured in RPMI saturated with 10% to overcome tumor-induced immune suppression. studied by Western Blot and confocal microsco- human plasma and 50 IU/ml IL-2. Activation took 120 1 Chiara Napoletano , Ilaria Grazia Zizzari , Aurelia Rughetti , Hassan Rahimi , 1 2 2 3 1 Valeria Visconti , Henrik Clausen , Hans H. Wandall , Francesca Belleudi , Filippo Bellati , 1 1 Luigi Frati , Marianna Nuti 3 py. MGL engagement induces homo-trimers and 121 071 | Improving Immunity 072 | Improving Immunity Exploring the feasibility of future combinatorial approaches of chemotherapy with immunotherapy for melanoma – influence of chemotherapeutic drugs on the functions of immune cells Updated results from a phase 2-3 clinical study in patients with advanced colorectal carcincoma treated with the immunomodulator MGN1703 – the IMPACT study Stefanie Gross, Anna Vogel, Waltraud Leisgang, Annett Hamann, Carmen Trütschel, Gerold Schuler, Eckhart Kämpgen M. Tschaika , H. J. Schmoll , J. Riera-Knorrenschild , F. Mayer , J. Kuhlmann , 6 7 1 1 1 1 8 J. Trojan , V. I. Vladimirov , E. Weith , M. Schroff , M. Krikov , M. Schmidt , B. Wittig for the IMPACT Study Team 1 2 3 4 5 Department of Dermatology, University Hospital Erlangen, Germany 1 Mologen AG, Berlin, Germany 2 University Clinic Halle (Saale), Halle, Germany 3 Universitätsklinikum Giessen und Marburg, Marburg, Germany 4 Medical Clinic, University of Tübingen, Germany 5 Universitätsklinikum Freiburg, Freiburg, Germany 6 Johann Wolfgang Goethe University, Frankfurt, Germany 7 State Budget Medical Institution Stavropol, Patigorsk; Russia 8 Foundation Institute Molecular Biology and Bioinformatics, Freie Universität Berlin, Germany Classical cytotoxic anticancer agents and also the ability and T-cell effector funtions in most cases. Introduction: This phase 2-3 study is performed in Results and discussions: The patients received new class of more specific kinase inhibitors are However, differential kinetics and effects on pre- patients with advanced CRC having disease control up to 132 treatment administrations, so far. The able to shrink large tumor masses in only a short existent memory T-cell responses, priming of naive after first-line therapy. The patients are treated majority of adverse events (84%) reported in the time in many patients, however often success is not T-cells or release of suppressed T-cells by therapeu- with the synthetic DNA-based immunomodula- study have been assessed as not drug-related by durable. Immunotherapy has shown long-time re- tic antibodies show the requirement of further fine- tor MGN1703 which acts as an agonist of toll-like the investigator. The remaining AEs (16%) include sponses though time to show those effects is long. tuning of treatment schedules. receptor 9. The objective of the study is to assess mild fever, injection site itching, muscle aching, ar- Neither of these two types of treatment by itself efficacy and safety of the MGN1703 treatment in thralgia, fatigue, paresthesia, rash, and moderate has been sufficient to cure cancer, but, combin- comparison to placebo. subfebril temperature and increased ANA in single ing chemotherapy with immunotherapy may allow Material and methods: The IMPACT study is de- patients. Currently, nine serious adverse events improving therapeutic results and expanding their signed as a randomized double-blind placebo- (SAEs) have been reported of which only one was durability. controlled phase 2-3 study, in which patients with assessed as probably drug-related (“atypical pneu- The effects of different chemotherapeutic agents advanced CRC showing disease control after first- monia”). Local reactions include such symptoms as on immune cells were studied at different time- line therapy with standard chemotherapy regimen mild redness and swelling at injection site reported points ex vivo in melanoma patients curently under are included. The study treatment (60 mg MGN1703 in single patients. No laboratory or clinical signs of chemotherapeutic treatment and in cells of healthy or placebo) is administered subcutaneously twice dose-limiting toxicities have been reported, so far. donors after in vitro preincubation. The peripheral weekly in a ratio 2:1, respectively. The therapy is Conclusions: The preliminary safety results of the blood mononuclear cells (PBMC) were exposed to continued until tumor progression, intolerable tox- ongoing clinical study in patients with advanced different chemotherapeutic agents then the cell vi- icity, exclusion criteria or withdrawal of consent. CRC show that treatment with MGN1703 at the ability and phenotype were analyzed by flow cy- The study is conducted in Germany, Austria, dosage of 60 mg is well tolerated and safe. Reported tometry. Effects of the drugs on antigen-specific France, Czech Republic and Russia. One hundred AEs which were assessed as possibly drug-related T-cell function were analyzed by specific cytokine twenty nine patients are planned to be included belong to expected study drug reactions known for release and proliferation using two-color fluoros- into the study. The efficacy and safety of the study immune modulating drugs. pot (fluorescent ELIspot), multiplex cytokine-bead treatment will be evaluated based on extensive im- array and multifunctional T-cell assay (MFTC). munological tests, radiological assessment, safety At concentrations up to two fold of the plasma level laboratory results and assessments of the quality found in patiens, most chemotherapeutic agents of life. showed only marginal effects on lymphocyte vi122 123 073 | Improving Immunity 074 | Improving Immunity Effective chemo/immunotherapy in melanoma patients activates non-canonical AKT pathway of Melan-A+ tumor-specific CD8+ T-cell clones New ways to improve the treatment of rectal cancer patients with liver metastases using metronomic regimen of chemotherapy with recombinant inferferon-alpha 1 1 2 1 1 1 1 2 2 1 C. Di Donna , B. Palermo , O. Franzese , D. Del Bello , N. Gualtieri , C. Nuzzo , 3 1 4 1 E. Proietti , V. Ferraresi , C. Catricalà , P. Nistico . Yuri Kudryavets , Grigory Maksim`yak , Victor Zhylchuk , Ada Vorontsova , 1 1 Natalya Bezdenezhnykh , Vasilij Chekhun 1 Regina Elena National Cancer Institute, Rome, Italy, 1 2 Department of Neurosciences, University of Tor Vergata, Rome, Italy, RE Kavetsky Institute of Experimental Pathology, Oncology and Radiobiology NAS of Ukraine, Kyiv, Ukraine 3 Istituto Superiore di Sanità, Rome, Italy, 2 Rivne Region Hospital, Rivne, Ukraine 4 Department of Dermatology-Oncology, S. Gallicano Dermatological Institute, Rome, Italy 2 bined treatment, a non-canonical AKT activation Traditionally for the therapy rectal cancer (RC) pa- can (2.0 mg/m ) + cisplatin (2.5 mg/m ) twice a the effectiveness of the antitumor immune response was observed. The identification of the extracel- tients use chemotherapeutic (CT) schemes based on week, group IV (58 patients) – irinotecan (2.0 mg / m ) 2 2 associated with clinical efficacy is an attractive an- lular stimuli and signaling pathway responsible various combinations of oxaliplatin, irinotecan, fluo- + cisplatin (2.5 mg/m ) twice a week combined titumor strategy, although molecular and cellular for DTIC-mediated activation of the AKT signaling, ropirymidines and methods of regional CT. However, with daily administration i/m IFN-alpha at a dose mechanisms by which conventional chemothera- are currently under investigation. A phase II rand- in most cases tumors remain resistant to CT and 1x10 IU; Group V (26 patients) – cyclophosphamide peutics can activate the immune system against omized clinical trial with DTIC administered one therefore requires finding new ways to palliative (15 mg/m , 2 g / week per os); group VI (21 patients) cancer are still under investigation. In a pilot clini- day before peptide-vaccination (Melan-A and NY- treatment of patients with metastatic rectal cancer. – cyclophosphamide (15 mg/m , 2 g / week per os) cal trial, in clinically disease free HLA-A2 mela- ESO-1) plus IFN-α, versus peptide-vaccination plus In recent years has explored new modes of chemo- + IFN 1 x10 IU daily, i/m. The duration of therapy noma patients, we have reported that the combi- IFN-α alone, is ongoing in our Institution, to prove therapy, in particular “dose-dense”, “chemo-switch” was 12-15 months, the results were assessed by 24-30 nation therapy using the chemotherapeutic agent the clinical efficacy in the prevention of melanoma and “metronomic” modes. The last one, as it seems, months. dacarbazine (DTIC) one day before peptides vac- relapse in clinically disease-free HLA-A2 patients 6 2 2 6 has as a target the tumor neoangiogenesis and espe- Analysis of the clinical effectiveness of metronomic cination (Melan-A and gp100) plus IFN-α increased cially effective in combination chemotherapy with mode drug therapy in patients with mCRC demon- the number of tumor-reactive long-lasting effector- antiangiogenic drugs. strated high performance such mode chemotherapy memory CD8 lymphocytes. To identify the mecha- Among the wide spectrum of angiogenesis inhibi- compared with conventional treatment using irinote- nisms enhancing the immune response, induced tors special attention is given interferon (IFN) which can. Among the most effective chemotherapeutic by DTIC combined with peptide-vaccination, we is well known as a natural non-toxic drug with an- schemes for all parameters (p <0,001) appeared met- analyzed the endogenous and treatment-induced tiangiogenic multitarget action that prevents blood ronomic mode application irinotecan with cisplatin. antigen specific CD8 T-cell response in a panel of + capillaries formation in tumors. Unlike other antian- The duration of partial clinical effect in this scheme clones isolated from six patients. We ana- giogenic drugs IFN can simultaneously affect differ- grew almost three times against this by using only a lyzed the sequence of the TCR β-chain of these ent parts of the regulation of angiogenesis. The main high dose of irinotecan, and duration of the stabiliza- clones and the molecular results were correlated advantage of this cytokine is its ability to specifically tion process and the overall survival rate increased with the expression of CD27/CD28 co-stimulatory inhibit tumor neovascularization without violating respectively by 81% and 34.5%. Metronomic therapy molecule, AKT activation and anti-tumor lytic ac- the physiological state of angiogenesis in the body. with cyclophosphamide was less effective, but in tivity. The combination of chemo/immunotherapy The paper presented the experience of treatment pa- combination with IFN was not inferior to the effi- elicited in Melan-A-specific, but not in gp100 clones, tients (stages T1-4N0-2M1) with metronomic regime ciency of irinotecan at a dose of 85 mg/m adopted. a renewal of high-avidity/tumor-reactive T-cell of chemotherapy. In this mode of treatment 168 pa- Using of IFN in all the metronomic chemotherapy clones, with a broadening TCR diversity in long- tients carried out using different schemes, which in- schemes significantly increased their effectiveness. surviving patients, suggesting that the selection of cluded cyclophosphamide, cisplatin and irinotecan Importantly, we observed decrease of the level of immune-resistant tumor variants may be circum- in combination these drugs with IFN. VEGF in the patients sera from 430-470 pg/ml to vented by this combination therapy. In the gp100 Studied group of patients included: Group I (control, 230-250 pg/ml after 4 month therapy with IFN. So clones, AKT activation (pSer473-AKT) canonically 44 patients) – received symptomatic treatment. Pa- accordingly our data metronomic chemotherapy of correlates with CD28 and/or CD27 expression, and tients II group (54 patients) received treatment with patients with metastatic rectal cancer is a new and + CD8 124 2 Combination of chemo-immunotherapy to increase 2 2 this was independent of the treatment. Differently, irinotecan in 85 mg/m adopted the accepted proto- perspective approach that provides inhibition of in the late-differentiated CD27/CD28-negative tu- col; III-VI main groups of patients receiving drug in the disease progression, possible by antiangiogenic mor-lytic Melan-A clones, isolated after the com- metronomic mode: Group III (63 patients) – irinote- mechanisms of action. 125 075 | Improving Immunity 076 | Improving Immunity Combining Gemcitabine and RIG-I signaling for chemoimmunetherapy of pancreatic cancer Immune-complexes formed by intracellular tumor antigens released by chemotherapy and an injected antigen-specific antibody have an adjuvant effect to activate the adoptive immune system against cancer Hélène Bourhis, Sabine Hoves, Peter Düwell, Mareike Stieg, Sarah Buhlert, Jonathan E llermeier, Max Schnurr Takuro Noguchi , Stylianous Bournazos , Sacha Gnjatic , Hiroshi Shiku , 5 2 1 Hiroyoshi Nishikawa , Jeffery Ravetch , Gerd Ritter Division of Clinical Pharmacology, Ziemssenstraße 1, 80333 Munich, Germany 1 Ludwig Institute for Cancer Research, New York Branch, Memorial Sloan-Kettering Cancer Center, New York, U.S.A 2 Laboratory of Molecular Genetics and Immunology, The Rockefeller University, New York, U.S.A 3 Department of Cancer Vaccine, Mie University Graduate School of Medicine, Mie, Japan 4 Department of Immuno-Gene Therapy, Mie University Graduate School of Medicine, Mie, Japan 5 Experimental Immunology, Immunology Frontier Research Center, Osaka University, Osaka, Japan 1 2 1 3, 4 Pancreatic cancer is the 4th leading cause of can- Monoclonal antibody (mAb) therapy against tumor area of extravasations was correlated with the dose cer-related death and the prognosis is very poor antigens expressed on the cell surface of tumors of antigen and the dose of antibody injected into with a 5-year survival rate less than 5%. It is char- such as Her2/neu and CD20 has become a standard the mice. In addition, we found that the amount acterized by a large immune suppressive network, treatment for cancer. The antibodies are thought to of spontaneous endogenous tumor antigen-specific early metastasis and irradiation. Although chemo- typically work through mechanisms such as direct antibody in tumor bearing mice was not enough to therapy with Gemcitabine is the gold standard it interruption of the cell surface receptor engaged in elicit the acute inflammation. This suggests the im- only has little impact on the patients survival. the tumor cell proliferation, and immune activation portance of maintaining high titer of intracellular Retinoic acid inducible gene I (RIG-I) is a ubiqui- through Fc receptors. Recently we have established antigen targeting antibody and of accentuating the tously expressed cytosolic helicase detecting viral a murine tumor model for a combination therapy release of antigen from tumor cells to expose more RNA by its 5‘-triphosphate moiety. 5’-Triphosphat- of a chemotherapeutic drug and an antibody tar- antigens e.g. by chemotherapy. Activation of innate modified RNA was synthesized per in-vitro tran- geting an intracellular tumor antigen (Noguchi T, immunity by ICs may contribute to the adjuvant scription and activation of RIG-I leads to a type-I IFN et al. Cancer Res. 2012). Chemotherapy accentu- effect of ICs to mature DCs in the model. response, upregulation of MHC class-I molecules ated the release of intracellular antigen from dying and secretion of proinflammatory cytokines. Fur- tumor cells to form immune-complexes (ICs) with thermore, it induces potent apoptosis in tumor cells. an injected antigen-specific antibody, and result- Here we show that suboptimal doses of Gemcit- ing in the augmentation of tumor growth inhibition abine trigger an upregulation of the pro-apoptotic when compared to chemotherapy alone. Although molecules Puma and Noxa. Combination of both, tumors without chemotherapy also released spon- Gemcitabine and RIG-I signaling leads to higher taneously tumor antigens from dying cells (usually sensitivity of the tumor cells to apoptosis in a syn- later than those with chemotherapy), ICs forma- ergistic manner. Moreover, dendritic cells were tion in this context was not associated with tumor able to phagocytose killed tumor cells and upregu- growth inhibition. We reported on a critical role late costimulatory molecules on their surface after of the DCs-CD8 T-cells cross-presentation axis in co-culture with the tumor cells. our model, but the involvement of other Fc recep- The data presume that combination of the chemo- tors bearing immune cells remained to be investi- therapeutic Gemcitabine with 5’-Triphosphat-RNA- gated. In order to study the involvement of innate mediated RIG-I signaling has a synergistic effect on immunity in our model, we used a reverse Arthus tumor cell death. This tumor cell death is immuno- passive reaction assay to visualize acute inflamma- genic and may represent an innovative therapeutic tion induced by ICs by determining the extent of ex- approach of pancreatic cancer therapy. travasation. Acute immune reaction was elicited in + an antigen-specific and Fc dependent manner. The 126 127 077 | Improving Immunity 078 | Improving Immunity The Role Of Combining Synthetic Imidazoquinoline Toll-like Receptor (TLR) Agonists And GM-CSF Activity For Potentiating Cell Activation In Autologous Cellular Immunotherapy (ACI) Sharply discordant biological properties of synthetic noncoding dsRNA of different size: translational opportunities in cancer 1 1 1 1 1 1 Craig Meagher , Jason Chinn , Felecia Wagener , Crystal Cummings , Shaarwari Sridhar , 1 1 1 1 2 Chris Ramsborg , Kien Khuu-Duong , Xinhui Ge , Lisa Martel , Mark Tomai , and James 1 Trager 1 Dendreon Corporation, Seattle, WA 98101, USA 2 3M Drug Delivery Systems, St. Paul, MN 55144, USA 1 Department of Research and Development, MultiCell Technologies, 68 Cumberland St., suite 301, Woonsocket, RI, 02895, USA 2 Division of Cellular and Molecular Biology, Toronto General Research Institute, University Health Network, Toronto, Ontario, M5G 2C4, Canada antigen uptake and processing and TLR7/8 stimula- Liver cancer still represents a significant unmet ment of asymptomatic or minimally symptomatic tion matures APC in the ACI setting. medical need. Noncoding dsRNA have been shown metastatic castration resistant prostate cancer, is the Next, the potential for TLR agonists to activate T-cells, to stimulate various signal transduction pathways first FDA-approved ACI. Here we describe a series as determined by cell surface expression of activa- through TLR, MDA6 and RIG-I-mediated recogni- of studies for the development of an ACI targeting tion markers (CD25, CD54, CD137, CD278), was in- tion, leading to cellular and immunological out- carbonic anhydrase IX (CA9) as a potential therapy vestigated. Of the agonists tested, simultaneous comes. We analyzed systematically the biologi- for cancers including renal, lung, colon, and cervi- stimulation of both TLR7 and TLR8 with R848 was cal activity of synthetic dsRNA and analogues of cal cancer. Like Provenge®, this new ACI utilizes the strongest at potentiating T-cell activation. Rela- defined size and chemical composition, on cancer- a recombinant antigen consisting of CA9 linked to tive to cultures supplemented with only CA9:GM-CSF, ous and other types of cells. There was a strikingly GM-CSF (CA9:GM-CSF), and in these studies, the R848 enhanced frequency of activated T-cells across different effect of such dsRNAs on cells: while short + + effects of incorporating proprietary imidazoquino- several subsets (CD4 , CD8 , γ/δ). R848 enhanced (5bps) polyA:U showed an anti-proliferative / cyto- line agonists that selectively stimulate TLR7 and 8 the frequency of cells expressing CD25 and CD54 ex- toxic effect, longer sized (70bps) polyA:U showed + on in vitro measures of ACI potency are investigated. pression for each subset, CD137 on only CD8 T-cells, Initially, we compared the phenotype of large APC and CD278 on only CD4 T-cells. In comparison, consistent with the model that dsRNAs of differ- following culture of PBMC from normal healthy stimulation via TLR8 only enhanced the frequency ent size are primarily engaged by distinct recep- donors with either CA9:GM-CSF or CA9:GM-CSF plus of γ/δ T-cells expressing CD278, while surprisingly, tors and recognition pathways, a reflection of their TLR7/8 agonists. While antigen derived GM-CSF ac- with respect to the markers characterized, selec- pleiotropism and the importance of rigorous RNA tivity strongly activated APC, characterized by en- tive stimulation through TLR7 did not significantly monitoring in general. Based on these findings hanced cell surface expression of CD40, CD54, CD80 enhance cellular activation of any subset. In associa- and advances in RNA manufacturing, we are con- and CD86, each TLR7/8 agonist was sufficient to tion with the observed pattern of T-cell activation, a ducting a comprehensive preclinical evaluation of further enhance CD80 expression. Differential regu- marked increase in the accumulation of proinflam- synthetic short dsRNA (MCT 485) and longer sized lation of CD86 was observed in response to TLR7 and matory Type-1 like associated growth factors (IFN-γ, dsRNA (MCT 465) of precise size and chemistry, TLR8 stimulation that enhanced and decreased cell IL-6, TNF-α, IL-12p70, CCL3, CCL4, and CXCL10) re- for potential translation to liver cancer and other surface expression, respectively. By extension, stimu- sulted following the addition of each TLR7/8 agonist. diseases. lation of TLR7 and TLR8 elicited a modest increase However, additive effects between CA9:GM-CSF and + in the costimulatory capacity of CD14 large APC in the TLR agonists in enhancing growth factor secre- allogeneic mixed lymphocyte response assays. Sig- tion were minimal as each TLR agonist alone resulted nificantly elevated levels of IL-1α, IL-1β, and MCP1-3 in maximal accumulation. Thus, in the ACI product, in culture supernatant were consistent with APC acti- agonists of TLR7/8 enhance T-cell activation and po- vation. Collectively, antigen derived GM-CSF activity larize T-cell responses to varying degrees dependent is robust at activating APC and agonists of TLR7/8 upon receptor specificity. can bolster this effect. But critically, using an HLA Overall, agonists of TLR7/8 are compatible with the class II restricted CA9-specific T-cell hybridoma re- ACI platform for potentially enhancing antigen spe- porter assay, it was imperative to stagger the addition cific immunotherapy of cancer. In current experi- of CA9:GM-CSF prior to TLR7 and TLR8 agonists in ments, we are investigating the capacity of TLR7/8 order to maintain antigen uptake and peptide pres- agonists to enhance cross-priming and generate cy- entation. This suggests that GM-CSF activity initiates totoxic T-cell responses. 2 1 Sipuleucel-T (Provenge®), indicated for the treat- + 128 2 Simona Bot , Feng He , W. Gerald Newmin , Anand Ghanekar cytokine induction without cytotoxicity. This is 129 079 | Improving Immunity 080 | Improving Immunity mTOR inhibitor Rapamycin Enhances the Cancer Therapeutic Potency of Naked RNA Vaccine CpG Oligodeoxynucleotides enhances both humoral and cellular immune responses against FMDV in mice 1 1 1 1 2 1 2 2 3 3 Diken Mustafa , Kreiter Sebastian , Vascotto Fulvia , Selmi Abderraouf , Attig Sebastian , 1 3 1, 2 Diekmann Jan , Türeci Özlem , Sahin Ugur Fuat Cem Yagci , Can Cokcaliskan , Musa Alkan , Bilgi Gungor , Mayda Gursel , Ihsan 1 Gursel 1 TRON - Translational Oncology at the University Medical Center of Johannes Gutenberg University, Mainz, Germany 1 Biotherapeutic ODN Research Lab., Department of Molecular Biology and Genetics, Bilkent University, Ankara, Turkey 2 III. Medical Department, University Medical Center of Johannes Gutenberg University, Mainz, Germany 2 Department of Vaccine Research, Institute of FMD, Ankara, Turkey 3 Department of Biological Sciences, Middle East Technical University, Ankara, Turkey 3 Ganymed Pharmaceuticals, Mainz, Germany Mammalian target of Rapamycin (mTOR) is a key group. Moreover, Rapamycin treatment increased Foot and Mouth Disease is one of the major con- Our results indicated that formulations with CpG metabolic kinase that regulates a variety of path- the median survival rate (91 days compared to vac- tagious and devastating viral diseases which is ODN were induced significantly higher levels of ways inside the cell. Recent reports have suggested cination alone (46 days)) and delayed tumor ap- caused by FMD virus (FMDV) of the cloven hoofed total IgG and IgG2a antibodies either over oil-emul- an additional role for mTOR as an intrinsic regula- pearence (61.5 days compared to vaccination alone animals. FMD outbreaks all around the world sion formulated monovalent Serotype–O Ag or its tor of memory T-cell formation. Treatment of mice (34 days)). These findings underline the importance caused serious economical losses during the last free counterpart. Moreover, CpG ODN induced a with the mTOR inhibitor Rapamycin was shown of immunoregulatory strategies for the design of century. Conventionally, inactivated FMDV is the robust Th1-biased immune response as evidenced to increase the number of memory precursors and improved cancer vaccines. major vaccine component used to control or eradi- by increased IgG2a/IgG1>1 ratio. This increased accelerated the transition from effector to memory cate the disease. These vaccines have proven to be Ab milieu was persistent over a course of 5 months. cells. These studies used viral or bacterial infec- an important component of control and eradication The virus neutralization assays revealed that CpG tion models and have not addressed the effect of of the disease so far. However due to difficulties to ODN added treatment groups developed much mTOR inhibiton on the memory T-cell formation grow certain serotypes and subtypes in cell culture higher neutralizing antibody titers compared to in the anti-tumor vaccination setting which is an to get sufficient amount of antigen (Ag) for vaccine non-CpG formulations. Consistent with anti-FMD- important factor predicting the success of a cancer production and the lack of longevity and rapidity Ab findings, virus neutralization titer levels and vaccine. In this study, we investigated the effect of features of currently used vaccines, more rapid and duration of neutralization were superior in CpG Rapamycin on the potency of a naked RNA vaccine. potent vaccination strategies are urgently needed. groups. C57BL/6 mice were immunized intranodally with Synthetic oligodeoxynucleotides (ODNs) contain- IFNγ is one of the major Th1 type cytokine which naked RNA encoding for the immunodominant ing unmethylated CpG bases due to their high im- plays critical roles in the improvement of CD8 epitope of chicken Ovalbumin (SIINFEKL) and munoadjuvant activity that promotes humoral and T-cell responses. It has been reported that IFNγ subsequently treated with Rapamycin (600µg/kg cell mediated immunity is receiving great atten- induced in vaccinated cattle is correlated with the body weight) in the T-cell contraction phase for tion. Several animal challenge studies and clini- animal‘s ability to control the replication of FMD three weeks. While the monitoring of SIINFEKL cal trials indicated that co-administration of CpG virus. Since mice injected with CpG ODNs induced specific CD8 T-cells showed similar frequencies ODNs with increased vaccine induced protection. such high IgG2a/IgG1 ratios, we investigated in the Rapamycin and control group, a higher fre- The aim of this study is to develop CpG ODN adju- whether CpG ODN including formulations can also + + - KLRG1 ) vanted FMD vaccine that confers long lasting im- induce cell-mediated immunity. As an indicator of were observed in mice received Rapamycin. This munity and better protection against the disease. cellular immune responses serum IFNγ levels of group also exhibited more profound expansion in 6-8 week old female BALB/c mice (8-10/group) mice have been measured by ELISA. Our results response to rechallenge with SIINFEKL peptide. were injected twice intraperitoneally at day=0 and revealed that 24h after injection CpG containing To address the question whether these effects of 15 either with licenced monovalent vaccine or free formulations induced 1,5 to 2 fold more IFNγ in Rapamycin can be translated into improved anti- FMDV serotype-O antigen were combined with serum which indicates the contribution of cell-me- tumoral therapy, a therapeutic tumor experiment CpG ODN (5ug/animal). Mouse sera were collected diated immune response using the B16-OVA melanoma model was per- with 2 weeks intervals for 5 months. Serum O-spe- In summary, this study demonstrated that CpG formed. Analysis of tumor infiltrating cells re- cific total IgG, IgG1, IgG2a antibodies (Ab) and IFNγ ODN provided an Ag sparing effect while it vealed a higher percentage of SIINFEKL specific levels were determined by ELISA. Neutralization achieved an enhancement both for humoral and levels of immune mouse sera were determined by cellular immune responses required to control FMD virus neutralization assay. better FMDV infection. quency of memory precursors (CD127 + CD8 T-cells and a lower frequency of myeloid derived suppressor cells (MDSC) in the Rapamycin 130 + 131 081 | Improving Immunity 082 | Improving Immunity Potent Stimulation of the Innate Immune System by Nucleic Acid Based TLR Ligands Encapsulated in Nanoliposomes CpG DNA containing nanoparticles as potential antitumor agents Banu Bayyurt, Ihsan Gursel Gizem Tincer , Kutay Karatepe , Cevayir Coban , Ken Ishii , Mayda Gursel , Ihsan Gursel Biotherapeutics ODN Research Lab., Department of Molecular Biology and Genetics, 1 Biotherapeutic ODN Lab, Department of Molecular Biology and Genetics, Bilkent University, Ankara, Turkey. 2 Laboratory of Host Defense, WPI Immunology Frontier Research Center, Osaka University, Osaka, Japan. 3 Laboratory of Adjuvant Innovation, National Institute of Biomedical Innovation, Osaka, Japan. 4 Department of Biological Sciences, Middle East Technical University, Ankara, Turkey. 1 Bilkent University, Ankara, TURKEY 132 1 2 2, 3 4 1 Nucleic acids with bacterial and viral origins are Additionally, thioglycollated peritoneal exudate Toll-like receptor 9 (TLR9) agonist CpG oligode- Untreated or free ODN treated nude mice at the end of recognized by toll like receptors (TLRs) that trig- cells (PECs) were isolated and treated with differ- oxynucleotides (CpG ODN hereafter) were used for d=30 developed a tumor volume ~3757±1050 mm gers mammalian innate immune system to secrete ent liposome formulations in order to investigate cancer immunotherapy of established hepatocellu- and 1300±235mm respectively. A >95% of tumor proinflammatory or inflammatory cytokines. Even inflammasome inducing ability of unencapsulated lar and tyhmoma tumor models. size reduction was observed in mice treated with though these ligands have a high potency to be free liposomes or together with their cargo. The Among many, induction of cytotoxic T-cells (CTL), NP-ODN. Of note, a 40% complete regression was used in clinical applications as a vaccine adjuvant cells were studied by FACS, while the supernatants improving antigen presenting cell (APC) functions observed in NP-ODN treated group whereas there or as an immunotherapeutic agent, the rapid clear- were analyzed for IL1b production by ELISA. and subversion of immunosuppressive microen- was no complete tumor remission in any other ance from the body by serum proteins, in vivo deg- Our data revealed that when DCs were treated with vironment generated by tumors are some of these treatment groups. radation via nucleases, consequently lead to poor in liposomal formulations, maturation signals along mechanisms mediated by CpG ODNs. Yet when The antitumor effect of natural PS/CpG-ODN nano- vivo stability and performance thus hampers their weith co-stimulatory molecule expression of DCs these agents were given in vivo, they are rapidly complexes were more effective than untreated or clinical applications. were improved up to 50 fold compared to free CpG cleared by nucleases, and could be adsorbed by only PS treated C57BL/6 mice that was inoculated Drug delivery systems are promising tools to in- or pIC induced activations. The IL6, IL12 and IFNγ circulating serum proteins hampering their in vivo with EG7 cells. Almost >50% reduction in tumor crease the stability of therapeutic agents and provide production from splenocytes and DCs were signifi- therapeutic applications. size were observed in mice that had nanocomplex. the targeting and internalization of the incorporated cantly boosted by liposomes. Modification of CpG ODNs into a more stable form Starting from day 16 and onwards this profile re- cargo. Among many, liposomes that are nano-sized This improvement was highest for CpG-A loaded critically improve its application in immunothera- mained same until the cessation of experiment on lipid vesicles are one of the most commonly used anionic liposomes, whereas stealth py against cancer. d=30. drug delivery vehicles. Due to safety and high en- cationic liposomes were the best formulation for We have designed a novel class of ODN, devoid of Treating mice either with self-nanoparticle forming trapment efficiency of bioactive agents liposomes CpG-B type. Neutral and stealth cationic liposomes polyGs that can undergo nanoparticle formation- CpG ODN or PS/CpGODN nanocomplexes demon- are one of the best candidates to be utilized in the were very effective formulations for pIC mediated designated as NP-ODN. In addition to that, CpG strated a significant tumor regression in two differ- encapsulation of very labile and valuable bioactive cytokine production and DC maturation. Surpris- ODN-natural polysaccharide nanocomplex formu- ent established tumor models. agents. In this study, different liposomes were used ingly, formulations containing cholesterol were lations were also characterized to be tested as ef- The mechanism responsible from this effect to encapsulate TLR ligands in order to understand generally very effective inflammasome activators fective anti-cancer agents to control established could be attributed to a more pronounced natural their immune stimulatory effects. as evidenced by IL-1b production of stimulated tumor growth. killer cell activation in hepatocellular carcinoma Mouse splenocytes and bone marrow derived mDCs PECs. HUH7, hepatocellular carcinoma and EG7 thymoma model, and more effective APC and CTL activity in were stimulated with different liposome formula- In conclusion, it was demonstrated that liposome xenografts were established in athymic nude and thymoma model. Involvement of various cell types tions with varying physiochemical features loaded formulations are efficient vehicles to increase the C57BL/6 mice (5-10/group), respectively. Three regulating CpG-nanoparticle mediated tumor re- with CpG (A or B-types) and pI:C (TLR9 and TLR3 immune stimulation potency of TLR ligands by doses of 100µg NP-ODN or PS/CpG ODN nanocom- gression is under investigation. ligands, respectively). Production of proinflamma- increasing DC maturation, pro-inflammatory cy- plexes on alternating days were intratumorally (or tory cytokines were analyzed by ELISA and the tokine secretion and inflammasome activation. peritumorally) administered following palpable maturation level and expression of co-stimulatory tumor formation of mice and tumor dimensions molecules of DCs was studied by FACS. were recorded daily and calculated as in mm . 3 3 3 Acknowledgements: IG received grant supports from TUBITAK, SBAG (Grant #: 108S316, 111S216) and SANTEZ2009-2-STZ-00448. 133 083 | Improving Immunity 084 | Improving Immunity Potentiating the immunostimulatory properties of CpG oligodeoxynucleotides: aiming to develop a better vaccine adjuvant A novel ODN delivery platform: CpG-ODN-loaded exosome nanovesicles 1 2 2 1 Bilgi Gungor , Fuat Cem Yagci , Ihsan Gursel , Mayda Gursel Tamer Kahraman, Gozde Gucluler, Ihsan Gursel 1 Department of Biological Sciences, Middle East Technical University, Ankara, Turkey Department of Molecular Biology and Genetics, Bilkent University, Ankara, Turkey 2 Department of Molecular Biology and Genetics, Bilkent University, Ankara, Turkey Unmethylated CpG DNA is recognized by TLR9 CpG or CpG/LL-37, suggesting a more potent Th1 Exosomes are naturally occurring, membranous of cellular internalization. Data revealed that K3 expressed by B lymphocytes, dendritic cells (DC) skewing potential. nanovesicles of 40-100 nm in diameter. They arise exosomes loaded cells were 80% positive for both and macrophages. Synthetic (ODN) containing Next, 6-8 week old BALB/c mice (5/group) were im- from the endocytic cellular pathway through three Cy5 and SP-DiOC signal. RAW cells were found to unmethylated CpG motifs duplicate the ability of munized twice (days 0 and 15) with 5X lower dose stages: (i) formation of endocytic vesicles ii) mul- be 100% positive for Cy5 and SP-DiOC in the case of bacterial DNA to stimulate the innate immune of the optimal licenced monovalent inactivated tivesicular bodies (MVBs) formation in the cytosol D35-loaded exosomes. Co-localization of exosomes system via TLR9. Murine models indicate that the FMD vaccine mixed with i) CpG ODN, ii) CpG ODN/ and (iii) fusion of the MVBs with the plasma mem- and ODN signals in the cells were confirmed by innate immune response elicited by CpG ODN can anti-microbial cationic peptide LL-37 complexes or brane to release their nanovesicular cargoes (1, 2). confocal microscopy. Supernatants from CpG ODN be harnessed to help eliminate cancers, prevent al- iii) CpG ODN/cationic peptide Tat complexes. CpG As well as functioning as natural vectors of inter- loaded nanovesicle treated cells were used to detect lergic reactions and boost the immunogenicity of ODN dose/mice was adjusted so that each animal cellular signaling within a given tissue or between TNFα, and IL6 secretion profiles by ELISA. vaccines. Numerous pre-clinical studies show that received a 5X lower dose (2 mg) of ODN than the differenT-cells and tissues, exosomes could be ex- This data implicated that K and D-type CpGODNs CpG ODN are effective as vaccine adjuvants and optimal adjuvant dose in mice (10 mg). The pre- ploited for the delivery of therapeutic cargoes (3). can be effectively encapsulated into exosomes by that they synergistically enhance tumor regression cursor frequencies of serotype O specific IgG1 or To explore the therapeutic potential, we investi- lyophilization. Encapsulation of these particles when used in combination with surgery, chemo- IgG2a secreting cells were determined using a lim- gated whether cell line-derived exosomes could be into exosomes enhanced their stimulatory activity therapy and/or radiotherapy. Based on such find- iting dilution assay. Antigen specific proliferation loaded with ss/ds DNA or RNA. The nano-delivery as evidenced by their increased IL-6 and TNF-α se- ings, more than a dozen clinical trials utilizing CpG of lymphocytes was assessed in inactivated virus vehicle is expected to provide better protection of cretion by RAW264.7 cells. This effect was dose de- ODN have been conducted. Unfortunately, clinical stimulated cultures using CFSE dye dilution assay. the cargo, more effective delivery to immune sites pendent for both K3 and D35 containing exosomes. results suggest that CpG ODN are somewhat less IgG1 secreting precursor frequencies of animals im- while facilitating better internalization that lead to Internalization kinetics and magnitude of ODNs potent in humans than in rodents. Herein we sum- munized with the FMD vaccine adjuvanted with enhanced activity. when loaded into exosomes were much higher than marize our efforts to potentiate the immunostimu- CpG, CpG/LL-37 and CpG/Tat were determined to Exosomes were isolated from RAW264.7 superna- free ODN. latory activity of CpG ODN by simple complexation be 1/30,000, 1/110,000 and 1/100,000, respective- tants by i) differential centrifugation, ii) filtration Collectively, our findings strongly demonstrated with the cell penetrating peptide Tat to generate ly, whereas the frequencies of IgG2a secreting cells and iii) ultra-centrifugation. Purified exosomes that exosome-loaded DNA led to formation of ef- a potent adjuvant formulation that specifically in- were 1/88,000, 1/52,000 and 1/12,000, indicating were loaded with Cy5- labeled K3 and D35 CpG fective nanovesicle drug delivery system. crease the precursor frequency of IgG2a secreting that CpG/Tat preferentially expands the popula- oligos via dehydration-rehydration method and This technique promises to offer a biocompatible cells in mice immunized with the inactivated foot tion of IgG2a secreting cells. Since evidence sug- labeled with lipophilic dye, SP-DiOC(18). SP-DiOC and personalized therapeutic approach with a great and mouth disease (FMD) vaccine. gests that tumor regression in mice is associated labeled, CpG ODN loaded exosomes were incubated potential to overcome the poor performance mainly CpG ODN/Tat peptide complexes were prepared at with a sustained and predominant IgG2a antibody with RAW 264.7 cells at 10:1 ratio (Exosome:Cell) due to pre-mature elimination of synthetic particles different molar ratios (1:2, 1:4, 1:8, 1:16) and the response, and tumor progression with a mixed for 24h for cytokine production assays or incubated since they are recognized as non-self upon in vivo formulation that induced a robust type I interfer- IgG1/IgG2a response. Our results suggest that the for several hours for confocal studies. For exosome administration. on production in human PBMC was selected for immunostimulatory properties of CpG/Tat could internalization studies, cells were analyzed by studies in mice. Stimulation of mice splenocytes be more suitable than CpG ODN in development of FACS or by confocal microscopy. Exosome treated with CpG ODN, CpG/Tat or CpG/LL-37 (a cationic specifically anti-cancer vaccines. cell supernatants were used for cytokine ELISA assays. antimicrobial peptide withouT-cell penetration property) at a dose of 0.3, 1 or 3 mM showed that CpG/Tat induced a 2X increase in IFNγ production at all doses tested against the maximum dose of 134 Acknowledgment: This work was supported by a TUBITAK grant (111S151). Different CpG DNA loaded SP-DiOC labeled exosomes were (i.e. Exo(K3-Cy5)SP-DiOC or Exo(D35- References: [1] Trajkovic K, Hsu C, Chiantia S, Rajendran L, et al. 2008. Science 319:1244–7. , [2] Chaput N, Théry C. 2011. Semin Immunopathol. 33:419-40. , [3] Lakhal S, Wood MJ. 2011. Bioessays 33:737-41. Acknowledgment: This work was supported by a TUBITAK SBAG grant #: 111S316. Cy5)SP-DiOC) analyzed by FACS to assess the level 135 085 | Improving Immunity 086 | Improving Immunity Bacteriocin DNA nanocomplexes as immunotherapeutic carriers Alternative approaches to improve immunity against cancer and infectious diseases: development of nucleic acid loaded nanocarrier systems 1 1 2 1 Fuat Cem Yagci , Gozde Gucluler , Fadime Kiran , and Ihsan Gursel 1 Biotherapeutic ODN Research Lab, Department of Molecular Biology and Genetics, Bilkent University, 2 Department of Biology, Faculty of Science, Ankara University, Ankara, Turkey Synthetic oligodeoxynucleotides (CpG-ODNs) and bac- to 1:2, 1:4, 1:8, ODN:Bacteriocin ratio (w/w). Single- The immunogenicity of a delivery formulation is closely PS/TLR9L nanocomplexes were tested in established dependent on effective internalization of immunogen thymoma model. Data revealed that PS/CpGODN nano- and adjuvant by the innate immune cells. These effects complex led to a more effective anti-tumor activity than untreated or only PS treated C57BL/6 mice that was terial DNA containing unmethylated CpG dinucleotides cell splenocyte suspensions were prepared (5x10 /mL) are optimized by maintaining close physical contact (CpG motifs) are clinical candidates as anti-cancer and added to each well. between the adjuvant and the antigen. Moreover, sus- inoculated with EG7 cells. Starting from post treatment agents, immune adjuvants, anti-allergens, and stand Three different CpG-ODN:bacteriocins complexes (1:2, tained and simultaneous release of antigen and ad- at day 16, more than 50% reduction in tumor sizes were alone immunoprotective agents. Two different classes 1:4, 1:8) in four different concentrations (3, 1, 0,3 and juvant to relevant antigen presenting cells mediated obtained in mice that had nanocomplex. This profile re- of CpG-ODNs were identified for clinical applications. 0,1µM) were used to stimulate the cells for 24 hr. Super- by a depot carrier system is one of the hallmarks of mained same until the cessation of experiment at d=30. B-Class ODNs, also known as K-type CpG ODN, have natants were collected and stored for cytokine ELISA generating long lasting effective immunity. Endosome- II. Vaccine development by liposomes: Liposome encap- phosphorothioate backbones and potent B- cell acti- at -20°C. associated TLRs recognizes microbial nucleic acids (ss/ sulation is a powerful tool to increase in vivo stability vators. A-Class ODNs (or D- type ODNs) have mixed Secretion of IL-6 and IL-12 into culture supernatants ds DNA or RNA). Clinical applications of these ligands as well as enhancing internalization of its cargo to rel- backbone and flanking G-runs at their 3`and 5`-ends. were determined by ELISA. Concentrations were calcu- were significantly hampered due to their pre-mature evant immune cells. We established that encapsulat- This class mainly triggers pDC to secrete IFNα, an im- lated from standard curves generated by use of known in vivo digestion by nucleases or rapid clearance due to ing CpG motifs in different nanoliposomes (~100nm) portant anti-viral cytokine. However, clinical trials re- amount of recombinant mouse cytokines. All ELISA circulating serum protein adsorption. having different physicochemical properties altered vealed that native CpG-ODNs` activities are not at the assays were performed in triplicate for each groups. This presentation will address our recent efforts on how not only encapsulation efficiency, but also the release therapeutic level, leading to failure of the ongoing trials. Although bacteriocins were isolated from different to formulate CpG ODNs and other related nucleic acid and delivery rates that ultimately impacted in vitro and Therefore, several different approaches have been pro- bacterial cultures our data suggested that they are not based TLR ligands able to yield more effective immuno- ex-vivo cytokine production rates and types. Moreover, posed in order to alleviate these undesirable side-effects inducing any immune response by themselves. Upon therapeutic nanocarrier systems. In brief, I will mainly different liposomes encapsulating CpG ODN signifi- (i.e. nanoliposomes, or amphipfilic biodegradable mac- complexation with CpG-ODNs, the nanocomplexes focus on the development of nucleic acid containing cantly increased Th1-biased cytokine and chemokine romolecules [1,2]). Simpler complexation compounds induced significantly much higher IL-6 and IL-12 pro- nanoliposomes, polysaccharide nanocomplexes, modi- gene transcripts. Additional studies demonstrated that that provide increased stability, retained activation and duction from mouse splenocytes. Enterocin A was fied montanide nano-emulsions, self-aggregating den- co-stimulatory and surface marker molecules on B-, DC, improved internalization of labile molecules such as found to be more effective on IL-6 secretion when used drimeric DNA-nanoparticles, and cell derived exosome and Macrophages significantly upregulated upon lipo- CpG motif expressing ODNs, if available in bulk and together with D or K-ODNs as compared to pediocin nanovesicles as effective nucleic acid carriers against some/CpG injection. Finally, co-encapsulating model can be obtained very cheaply are very suitable carri- AcH/PA-1. Interestingly, when IL-12 induction profiles viral or bacterial infections as well as candidate agents antigen ovalbumin with CpG ODN adjuvant in nanoli- ers. Cationic peptides (enterocin A and pediocin AcH/ were investigated, data implicated that both bacteri- for anti-cancer immunotherapy. Some exemplary ap- posomes profoundly augmented Th1 and cell mediated PA-1) isolated from different lactic acid bacteria (LAB) ocins were able to pronounce the effect of D but not proaches to improve in vivo performance of TLR-based anti-ova specific immune response. This work estab- are such compounds, since they can interact with CpG- K–type CpG ODNs (data not shown). immuntherapeutics are covered below. lished an unappreciated immunoregulatory property ODNs to generate stable nanocomplexes. The bacteri- When taken together present data demonstrated that I. Polysaccharide based nanocomplexes: Following ex- of nanoliposomes mediating immunity against protein ocins produced by LAB, are ribosomally synthesized bacteriocin/DNA nanocompexes significantly aug- ploration of immunostimulatory properties of mush- antigen and could be harnessed to design more effec- antimicrobial peptides. The peptide is heat-stable, and mented immunostimulatory potential of different room derived polysaccharides (PS), stable i) PS/pIC, ii) tive therapeutic vaccines or stand alone immunopro- cationic [3]. Here we showed that; two candidate bac- classes of CpG motifs. These results strongly sug- PS/CpGODN, and iii) PS/R848 nanocomplexes around tective agents targeting infectious diseases, as well as teriocins, namely, i) enterocin A and ii) pediocin AcH/ gested that bacteriocins are suitable carriers for labile 100-150 nm in size were prepared. PSs were selectively cancer or allergy. PA-1 complexed with different CpG ODNs led to supe- nucleic acid based agonists nanocomplaxation, and engaged by cells expressing TLR2 and initiated NFκB Collectively, development of techniques that provide rior activity over free ODN counterparts. could be harnessed to improve their in vivo efficacy dependent signalling cascade leading to a Th1-biased stable encapsulation and or complexation of nucleic for immunotherapeutic applications. cytokine/chemokine secretion in addition to bactericid- acid based bioactive drugs in a suitable carrier/depot control ODNs in which the CpG motif was methyl- al nitric oxide (NO) production by macrophages. More- system is an effective approach to improve in vivo per- ated or inverted, were used as CpG-A and CpG-B type References: over, cells treated with nanoparticles led to synergistic formance and serves to broaden the immunotherapeu- ODNs, respectively. In this study, Enterocin A, pro- (1) I. Gursel, J.Immunol, 2001, IL6, production and upregulation of TNFα, MIP3α, IFNγ tic spectrum of TLR based nucleic acid ligands. duced by infant isolate of Enterococcus faecalis OZV (2) G. Tincer, Biomaterials, 2011, and IP10 transcript expression. In mice, PS-Ag-Nucleic and Pediocin AcH/PA-1, produced by breast milk (3) R.W.Jack, Microbiol Rev., 1995. Acid formulation surpassed antigen-specific IgG re- isolate of Pediococcus pentosaceus OZF were used as Acknowledgements: Grants from TUBITAK/SBAG (Project#: 111S216, and 108S316)is appreciated. Acknowledgment: Part of this work was supported by TUBITAK grants (108S316, and 111S236) and SANTEZ grant (STZ-2009-2-00448) to IG. Contributions from the old and current members of IG Lab is greatly appreciated. Immunostimulatory ODN-D35 and ODN-K3, and their bacteriocin sources. The complexations were adjusted 136 Ihsan Gursel Biotherapeutic ODN Res Lab., Department of Molecular Biology and Genetics, Bilkent University, Ankara, Turkey 6 sponses when compared to either PS-Ag or nucleic acid ligand-Ag mediated immunity. The antitumor effect of 137 087 | Immunomonitoring Divpenia (low TCR diversity) and lymphopenia as prognostic factors of OS in metastatic breast cancer Immunomonitoring 138 1 4 4 3 1 1 M. Manuel , O. Trédan , T. Bachelot , G. Clapisson , A. Courtier , G. Parmentier , 1 1 1 1 5 5 4 T. Rabeony , A. Grives , S. Perez , JF. Mouret , D. Perol , S. Chabaud , I. Ray-Coquard , 4 4 6 2, 3 2 1 I. Labidi-Galy , P. Heudel , JY. Pierga , C. Caux , JY. Blay , N. Pasqual , C. Ménétrier2, 3 Caux 1 ImmunID Technologies, CEA, 17 rue des Martyrs, 38054 Grenoble, France 2 Team 11 "Therapeutic targeting of tumor cells and their immune environment" CRCL INSERM U-1052/CNRS 5286, 28 rue Laennec 69008 Lyon, France 3 Innovation in Immunotherapy and Immuno-monitoring (PI3), Centre Léon Bérard, 28 rue Laennec 69008 Lyon, France 4 Department of medical oncology, Centre Léon Bérard, 28 rue Laennec, 69008 Lyon, France 5 Biostatistic Unit, Centre Léon Bérard, 28 rue Laennec 69008, Lyon, France Rationale: Recent works have highlighted that penia (<1 Giga/L) was associated with shorter OS monitoring lymphocyte count in peripheral blood for cohort B. The combination of low TCR diver- before any chemotherapy had a prognostic value on sity with lymphopenia (called lympho-divpenia) patient survival in metastatic breast cancer. Lym- was associated with poor OS compared to patients phopenia (<1 Giga/L) prior to treatment is a predic- with either diversity >33% or lymphocyte count tive factor for toxicity and death in metastatic solid ≥1 Giga/L or both, in cohort A (median OS: 7.6 vs tumors. On the other hand, TCR diversity is direct- 24.5 months, log rank p.value =0.0006) and cohort ly related to antigen recognition and is required B (median OS 10.6 vs 22.9 months, log rank p.value for mounting an efficient immune response. Com- =0.0035). In a multivariate analysis, including binatorial diversity of T-cell Receptor -beta chain other significant clinical factors from the univari- (TCR-β), as a measure of T-cell repertoire diversity, ate analysis (Performance Status, liver metasta- was investigated and tested either alone or in com- sis, hemoglobin) lympho-divpenia was found to bination with lymphopenia as a prognostic factor be an independent prognostic factor in the pooled at diagnostic for overall survival (OS) in metastatic cohort (A+B) (p=0.005) along with triple negative breast cancer (MBC) patients. tumors (p=0.011) and hemoglobin level (11.5 g/dL) Patients and methods: Using semi quantitative (p=0.009). multiplex PCR, the V-D-J combinatorial diversity Conclusion: The NDL score, combining lymphope- of the TCR was measured on cryo-preserved blood nia and reduced TCR diversity, is a strong prognos- samples from 2 cohorts of MBC patients before the tic factor and could help improving care quality initiation of the fi rst line chemotherapy: a devel- of MBC patients. Our results highlight the exist- opment cohort (cohort A, n=66) and a validation ence of an immunodeficient sub-population of MBC cohort (cohort B, n=67). A prognostic score, called patients associated with a shorter life expectancy. NDL (Number & Diversity of Lymphocytes) com- A clinical study is ongoing in order to determine bining lymphocyte count and TCR diversity was whether that subset of patients could benefit from evaluated. Univariate and multivariate analysis of a therapeutic adaptation combining chemotherapy prognostic factors for OS were performed in both and IL-7, a cytokine that promotes immuno-recon- cohorts. stitution through peripheral lymphocytes T prolif- Results: TCR diversity ≤33% (divpenia) was as- eration and thymic activation. sociated with a reduced OS in cohort A. Lympho139 088 | Immunomonitoring 089 | Immunomonitoring T-cell recognition of Tumor-associated antigens in patients with preinvasive lesions of the breast Antibodies against CTL epitopes from tumor-associated antigens were widely detectable in humans: potential prognostic significance in cancer patients 1 1 1 1 1 1, 2 1 3 3 1 Anna-Lena Krause , Yingzi Ge , Andreas Bonertz , Joanna Förster , Christoph Domschke , 2 1 Florian Schütz and Philipp Beckhove Satoko Matsueda , Nobukazu Komatsu , Kenichi Kusumoto , Shintaro Koga , Shigeru Yutani , 1 4 1 1 Shigeki Shichijo , Takashi Mine , Kyogo Itoh , Tetsuro Sasada 1 1 Det. of Immunology and Immunotherapy, Kurume University School of Medicine, Kurume, Japan 2 Cancer Vaccine Division, Research Center of Innovative Cancer Therapy, Kurume University, Kurume, Japan 3 Biotechnology and Food Research Institute, Fukuoka Industrial Technology Center, Kurume, Japan 4 Multidisciplinary Cancer Center, Kurume University School of medicine, Kurume, Japan 2 Division of Translational Immunology, Tumor Immunology Program, German Cancer Research Center (DKFZ), National Center for Tumor Diseases (NCT), INF 460, 69120 Heidelberg, Germany Department of Gynecology and Obstetrics, University Hospital of Heidelberg, Voßstraße 9, 69115 Heidelberg, Germany 140 Breast cancer cells are known to frequently (over) linked immunospot assay (ELISpot). Therefore, we Purpose: To investigate humoral responses to CTL express several well-characterized tumor-associ- stimulated peripheral blood T-cells with autologous epitope peptides derived from tumor associated an- ated antigens (TAAs) such as carcinoembryonic dendritic cells pulsed with long synthetic peptides tigens (TAA) in healthy donors (HD) or patients antigen (CEA), MUC-1, Her-2/neu, members of the bearing a 50 amino acid long sequence of CEA, with various types of diseases. MAGE family, Mammaglobin and Heparanase. MUC-1, Her-2/neu, MAGE A3, Mammaglobin1 or Experimental design: Plasma or sera were collect- Spontaneous T-cell responses against tumor-as- Heparanase1. These peptides contain predicted ed from HD, patients with hepatitis C virus (HCV) sociated antigens (TAAs) are frequent in patients ligands for the most common HLA molecules of infection, influenza virus infection, rheumatoid with invasive breast cancer, but rare in healthy in- the german polulation. Each experiment was per- arthritis, IgA nephropathy, hematopoietic malig- dividuals. Despite the presence of cytotoxic effec- formed before and after depletion of Tregs. nancy, and non-HCV hepatocellular carcinoma. tor cells, the antitumor-response can be inhibited We show that in peripheral blood of DCIS patients, Bead-based multiplex assay (Luminex system) was by regulatory T-cells (Tregs), which accumulate the frequency of TAA-specific T-cells is significant- used to measure immunoglobulins (Igs) to each of in the tumor. However, up to now, it is unknown ly higher than in healthy donors and does not differ 31 different peptides from TAA capable of inducing in which stage of the cancerogenesis TAA-specific from patients with invasive breast cancer. While CTL responses. T-cell immunity emerges and if the induction of Treg depletion significantly increases the in vitro Results: IgGs specific to the most of 31 peptides tumor-associated Treg is an early or late process. responsiveness in invasive breast cancer patients, tested were detectable in the majority (>50%) of Since the introduction of the Mammography we could not observe this effect in DCIS patients. HD. Age-depended decrease was observed on the screening program in Germany, increasing prein- Our data suggest that already in a preinvasive state, total sums of anti-peptide IgMs, whereas those of vasive lesions of the breast are detected. The most when malignanT-cells are bounded to the ducts, anti-peptide IgGs increased in elder HD. Patients common preinvasive lesion, the ductal carcinoma breast carcinomas appear to be immunogenic. Fur- with HCV or influenza infection had higher sums in situ (DCIS), is characterized by proliferation of thermore, the induction of Tregs, capable of inhib- of IgGs as compared to HD. Patients with hemat- malignant epithelial cells within the breast paren- iting the antitumor-response, might occur later in opoietic malignancy showed higher sums of anti- chymal structures, with no evidence of invasion the carcinogenesis. Currently, we are investigating peptide IgMs and lower sums of anti-peptide IgGs, across the basement membrane. If left untreated, the immunogenicity of benign proliferative lesions whereas the sums of both of anti-peptide IgMs and up to 50% transform into an invasive carcinoma of the breast. anti-peptide IgGs were higher in HCC patients. The within 10 years. total sums of anti-peptide IgG1 were well correlated Our aim was to investigate the T-cell-reactivity of with overall survival in both malignant diseases. DCIS patients against TAAs shown to be relevant in Conclusions: Humoral responses to CTL epitope invasive breast cancer and the impact of regulatory peptides derived from TAA were detectable in T-cells on this responsiveness. humans. Our results could provide new insight for To investigate the functional activation of the T-cell better understanding and clinical significance of pool by TAAs, we performed an IFN-γ Enzyme- humoral responses to TAA-derived peptides. 141 090 | Immunomonitoring 091 | Immunomonitoring Reliable assay for monitoring CMV-specific T-cell immunity following Allogeneic Hematopoietic Cell Transplantation Expression of Foxp3 in Colorectal Cancer but not in Treg Cells Correlates with Disease Progression in Patients with Colorectal Cancer 1 1 2 2 1 1 2 2 1 Tina Jakobsen , Liselotte Brix , Dalin Pan , George Chen , Charlotte Halgreen , 2 2 1 2 Theresa Hahn , Philip McCarthy , Henrik Pedersen and Paul K Wallace Martin Gasser , Tanja Grimmig , Maria Lazariotou , Christoph Thomas Germer , 2 Ana Maria Waaga-Gasser 1 1 Department of Surgery I, University of Wuerzburg, Germany 2 Department of Surgery I, Molecular Oncology and Immunology, University of Würzburg, Germany Immudex, Copenhagen, Denmark. 2Roswell Park Cancer Institute, Buffalo, New York, USA Cytomegalovirus (CMV) infects and establishes patients. Furthermore, in some recipients receiv- Regulatory T-cells (Treg) expressing the transcrip- persistent lifelong infections in 50-85% of adults. ing transplants from HLA-mismatched donors we tion factor Forkhead-Box-Protein P3 (Foxp3) have Reactivation of the virus is a frequently occurring could measure CMV-specific T-cells restricted by been identified to counteract anti-tumor immune complication of immunosuppression following donors HLA and not recipients HLA, indicating that responses during tumor progression. Besides, transplantation and can significantly contribute to adoptive transfer of CMV-specific T-cells can occur Foxp3 presentation by cancer cells itself may also morbidity and mortality in such patients. with alloHCT. allow them to evade from effector T-cell responses, Reconstitution of CMV-specific T-cell immunity This study demonstrates that CMV Dextramers are resulting in a survival benefit of the tumor. For after allogeneic hematopoietic cell transplantation reliable reagents that can be used to monitor re- colorectal cancer (CRC) the clinical relevance of (alloHCT) has previously been quantified using constitution of CMV immunity post-alloHCT, and Foxp3 has not been evaluated in detail. Therefore CMV tetramers, and shown to be a valuable aid shows that adoptive transfer of anti-CMV immunity the aim of this study was to study its impact in in predicting patients at risk of developing CMV can be quantified. colorectal cancer (CRC). reactivation. We have developed an assay for quan+ Gene and protein analysis of tumor tissues from tifying CMV-specific CD8 T-cells using CMV-spe- patients with CRC was performed to quantify the cific Dextramers. Dextramers are MHC multimer expression of Foxp3 in tumor infiltrating Treg and reagents that are used in flow cytometry to detect colon cancer cells. The results were correlated with antigen-specific T-cells in the blood. Dextramers clinicopathological parameters and patients overall have much higher resolution than conventional survival. MHC multimers like Tetramers, and thus provide Serial morphological analysis demonstrated Foxp3 a more reliable means for identification of antigen- to be expressed in cancer cells. Moreover, high specific T-cells. Foxp3 expression of the cancer cells was associ- We here show that the CMV Dextramer assay in- ated with poor prognosis compared to patients with cluding 7 alleles (HLA-A*01,-A*02, A*03, A*24, B*07, low Foxp3 expression. In contrast, low and high B*08 and B*35) has high specificity and sensitivity Foxp3 level in tumor infiltrating Treg cells demon- and accurately enumerates CMV-specific T-cells in strated no significant differences in overall patient both healthy donors and alloHCT patients, with a survival. Our findings strongly suggest that Foxp3 lower detection limit of 0.08 cells/µl. The assay is expression mediated by cancer cells rather than by highly reproducible with low intra and inter assay Treg cells contribute to disease progression in pa- variation. tients with CRC. Using the CMV Dextramer assay we were able to quantify reconstitution of CMV T-cell immunity post transplantation at day 30, 100, and 365 in 89 142 143 092 | Immunomonitoring 093 | Immunomonitoring Molecular signature of virus-specific T-cell polyfunctionality Activation and frequency of Myeloid Subsets in peripheral blood is associated with clinical outcome in prostate cancer patients treated with Prostate GVAX and ipilimumab 1 2 2 Yen-Ling Chiu , Jonathan Schneck , Mathias Oelke 1 Johns Hopkins University School of Medicine, Department of Pathology, Institute of Cell Engineering, Baltimore MD,USA 2 Immunology Graduate Program, Johns Hopkins University 1 2 2 1 1 3 S.J.A.M. Santegoets , Anita G.M. Stam , R.J. Scheper , S.M. Lougheed , H. Gall , K. Jooss , 3 3 4 4 1 1 N. Sacks , K. Hege , I. Lowy , J.-M. Cuillerot , W.R. Gerritsen , A.J.M. van den Eertwegh , 1 and T.D. de Gruijl . 1 2 Departments of Medical Oncology Pathology and of the VU Medical Centre, Amsterdam, Neth3 4 erlands; Cell Genesys Inc., San Francisco, CA; Medarex, Bloomsbury, NJ/Bristol-Myers Squibb Company, Wallingford, CT T-cell polyfunctionality has been shown to be Blockade of the CTLA-4 immune checkpoint can activation and recruitment to the vaccination sites. crucial in protective immunity. However, the mo- enhance anti-tumor responses and prolong sur- Treatment-induced activation of BDCA1/CD1c lecular mechanism controlling T-cell polyfunction- vival, but it can also lead to the development of cDC and 6-sulfo LacNAc ality have not yet been determined. Specifically severe and potentially life-threatening immune- associated with significantly prolonged over-all the genetic control linking antigen doses to poly- related adverse events (IRAE). To avoid unneces- survival (OS). In contrast, increased frequencies of functionality has not been explored. In this study, sary exposure to this risk, it is essential to identify CD11b CD14-CD15 we found that human antigen specific CTL expan- biomarkers that correlate with clinical activity and suppressor cells (MDSC) and high pre-treatment sion induced by high dose antigenic stimulation is can be used to recognize and select patients that levels of CD14 HLA-DR associated with CTL with lower polyfunctionality will benefit from immune checkpoint blockade. We associated with reduced OS. and higher inhibitory receptors expression, while therefore performed extensive immune monitoring Together with similar analyses of T-cell subsets, optimal doses of antigen stimulation results in in a phase I/II dose escalation/expansion trial of these studies have yielded an immune profile with higher CTL polyfunctionality and lower level of combined Prostate GVAX (a GM-CSF-secreting al- predictive value for clinical outcome. The profile inhibitory receptors. Notably, we found that even logeneic prostate cancer vaccine) and antiCTLA-4/ is characterized by pre- or on-treatment activation in an artificial APC system with only signal 1 and ipilimumab immunotherapy in patients with Cas- of immune effector subsets and low frequencies of signal 2, antigen dose still directly mediated CTL tration Resistant Prostate Cancer (CRPC). Here we regulatory/suppressive subsets. It may thus provide polyfunctionality independent of inhibitory recep- report on the effects of the treatment on circulat- a potentially useful tool for patient selection and tor signaling. The molecular signature associated ing myeloid cells and the identification of potential should be validated as such in other patient groups with high CTL polyfunctionality is identified by myeloid-related biomarkers. treated by antiCTLA-4 blockade. genomic microarray. These findings are thus im- The GVAX/ipilimumab combination was clini- portant framework for vaccine development. cally active with PSA declines of more than 50% + + + + + inflammatory DC was granulocytic myeloid-derived lo/- monocytic MDSC were in 5, and PSA stabilizations in 12 of 28 patients. Regressing bone and lymph node metastasis were observed in 2/5 PR patients. Flowcytometric monitoring of myeloid subsets in peripheral blood before and after Prostate GVAX/ipilimumab treatment revealed some striking differences between patients who benefited from therapy and patients who did not. Significant treatment-induced decreases of conventional and plasmacytoid Dendritic Cell subsets (cDC and pDC, respectively) were observed, which were paralleled by increased DC 144 145 094 | Immunomonitoring 095 | Immunomonitoring CD8+ T-cells specific for peptides encoded by large T and small T antigen from Merkel cell polyomavirus is detected in merkel cell carcinoma patients and not healthy individuals No correlation between spontaneous tumor antigen-specific T-cell and antibody responses in the majority of primary melanoma patients 1 1 2 3 1 2 3 1 Rikke Lyngaa , Charlotte Albæk Thrue , Paul Nghiem , Jürgen. C. Becker , Per Thor1 1 Straten , Sine Reker Hadrup Christina Pfirschke , Christoffer Gebhardt , Inka Zörnig , Ludmila Umansky , Alexander 2 3 1 Enk , Dirk Jäger , Philipp Beckhove 1 Center for Cancer Immune Therapy, CCIT. Department of Hematology, University Hospital Herlev, Herlev, Denmark 1 Division of Translational Immunology, German Cancer Research Center (DKFZ), Heidelberg, Germany 2 Departments of Medicine/Dermatology, Pathology, University of Washington, Fred Hutchinson Cancer Research Center, Seattle Cancer Center Care Alliance, Seattle, WA 98109, USA 2 Department of Dermatology, University of Heidelberg, Heidelberg, Germany 3 Department of Medical Oncology, National Center for Tumor Diseases (NCT), Heidelberg, Germany 3 General Dermatology, Medical University of Graz, Graz, Austria Several types of cancers are known to have a viral healthy donors by MHC multimer staining, combi- Tumor-reactive memory T-cell (TC) responses can Tyrosinase, MDM2, MAGE-A1, p53, MIF, RAB38, origin. These include cervical cancer induced by natorial color-encoded to allow parallel detection be involved in durable prevention of tumor recur- gp100, GAGE-1, TRP2, NY-ESO-1, MAGE-C2) and Human Papilloma Virus and Kaposi Sarcoma induced of T-cells specific for this large library of peptides. rence and metastasis formation. Spontaneously IgG control antigen. In addition, corresponding by Karposis Scarcoma associated herpes Virus. A Due to the low frequency of MCV specific CD8 T- induced TC responses are present in patients with spontaneous Ab responses were analyzed. new member of the virus induced cancers was re- cells in peripheral blood we performed a parallel en- many tumor entities, including malignant mela- In the majority of MM patients, independent of the cently discovered, the Merkel Cell Carcinoma (MCC). richment of all peptide reactive T-cells by magnetic noma (MM), and provide a repertoire of functional HLA-type, polyvalent preexisting TAA-reactive TC Merkel cell carcinoma is a rare and aggressive human selection of PE-multimer labeled cells and consecu- and potentially protective immune cells that can responses against a broad repertoire of MM-asso- skin cancer that typically affects elderly and immu- tive in-vitro expansion. We investigated MHC-mul- be therapeutically reactivated. Therefore, the iden- ciated antigens were detected and the TC frequen- nosuppressed individuals. Recently, the Merkel Cell timer enriched cultures from 29 MCC patients and tification of major target antigens of spontaneous cies were significantly higher compared to healthy Polyomavirus (MCV) was found integrated into the 30 healthy donors. Interestingly, T-cell responses tumor-reactive TC responses might be critical donors. Interestingly, spontaneous TC frequencies genome of 80% of MCC, and shown to play a role against MCV derived peptides were seen more fre- for the optimization of cancer immunotherapies. and the number of TAA-reactive TC responses in- in the oncogenic transformation. Polyomaviruses are quent in the patients group than the healthy donor Moreover, tumor antigen-specific antibody (Ab) re- creased after tumor resection over time. Functional- small circular DNA viruses encoding a T antigen on- group (p<0.01). Furthermore it was evident that sponses are often used as surrogate parameters of reactive tumor-specific Treg were detected in some coprotein locus. MCV expresses the small T and large only the patient group showed responses against tumor antigen-specific TC responses. However, a patients, but in the majority of non-metastasized T antigen together with the structural proteins VP1-3. Large and Small T antigens, indicating that tar- direct correlation of TC and Ab responses has so MM patients an important role of Treg in controlling Specific for the MCV genome integrated in the cancer geting these antigens would specifically affect the far not been systematically conducted. spontaneous TAA-reactive TC responses could not cells is a deletion of the large T antigen that renders malignanT-cells. Here, we examined the presence of spontaneous- be identified. Moreover, spontaneous Ab responses the virus non infectious. Immunotherapeutic target- MCV specific T-cells has proven functionally effec- ly induced tumor-reactive TCs and spontaneous against the majority of analyzed TAAs were detect- ing of virus positive tumors by CD8 T-cells could tive in cytokine secretion and killing of peptide- Ab responses against tumor-associated antigens ed in the plasma of non-metastasized MM patients. serve as an ideal strategy to treat MCC, however only loaded targets cells, and we are currently investi- (TAAs) in the peripheral blood of primary non- Thereby, Ab responses were preferentially detected one CD8 T-cell epitope (restricted to HLA-A24) was gating the ability of the 26 potential T-cells epitopes metastasized MM patients (stages 0, I, II) at dif- against two or three TAAs in parallel per respond- recently identified. identified to induce MCC tumor cell killing, and ferent time points after primary tumor resection. ing MM patient and compared to healthy donors, The aim of this study is to identify MCV encoded thereby asses the therapeutic potential of these spe- Furthermore, we investigated the effect of regula- the number of Ab responses was generally elevated. MHC class I restricted T-cell epitopes encoded by cificities. tory TC (Treg) depletion on TC reactivity against But, in contrast to TC responses, the number of TAA- small T, VP1 and the truncated sequence of large TAAs in the absence of continuous stimulation by specific Ab responses did not increase after tumor T, by use of a high-throughput platform for T-cell the tumor. resection over time and in general, TAA-specific epitope mapping. HLA ligands from the target To analyze the presence and frequencies of spon- Ab responses did not correlate with corresponding protein was identified first by in silico ligand pre- taneously induced preexisting tumor antigen-re- spontaneous TC responses. diction using the NetMHC and SYFPEITHI databas- active TCs before and after depletion of Treg we Summarized, our data show that spontaneous es, and verified by experimental binding analyses performed ex vivo short-term IFNγ ELISPOT assays. tumor antigen-specific TC and Ab responses against (MHC ELISA). A total of 236 peptides was identify As antigen presenting cells, we used autologous a broad repertoire of MM-associated antigens are as ligands to HLA-A1, A2, A3, A11 and B7, and se- dendritic cells which were pulsed with 50 amino detectable in primary MM patients. However, the lected for immunological analyses. acid long synthetic polypeptides, spanning several majority of patients so far examined showed no We analyzed for the presence of MCV-specific T-cell MHC class I- and II-restricted immunogenic regions correlation of spontaneous TAA-specific TC and responses in peripheral blood of MCC patients and from 13 different TAAs (Melan-A/MART-1, NA17-A, Ab responses. + 146 + 147 096 | Immunomonitoring 097 | Immunomonitoring Dissection of anti-CTLA4-induced cytotoxic T-cell responses in melanoma Tracking T-cell clones using high-throughput sequencing of antigen receptor CDR3 chains 1 1 1 1 2 Pia Kvistborg , Daisy Philips , Sander Kelderman , Bianca Heemskerk , Christian Ottensmeier , 3 4 1 1 1 Antoni Ribas , Daniel Speiser , Christian Blank , John Haanen , Ton Schumacher . 1 Department of Immunology, Netherlands Cancer Institute, Amsterdam, Netherlands 2 Department of Medical Oncology, Southampton University Hospitals, Southampton, United Kingdom 3 Department of Medicine, Jonsson Comprehensive Cancer Center, Los Angeles, US 4 Clinical Tumor Biology & Immunotherapy Group, Ludwig Center, Lausanne, Switzerland 148 1 2 1 1 Cindy Desmarais , Jessica Matthis , Robert Livinston , Ryan Emerson , Nishanth 1 1 3 2 3 Mathandan , Anna Sherwood , Jessica Andriesen , Helena Reijonen , Christopher Carlson , 2 3 3 3 Gerold Nepom , Cassian Yee , Karan Cerosaletti , Harlan Robins 1 Adaptive Biotechnologies, Seattle, WA, U.S.A. 2 Benaroya Research Institute, Seattle, WA, U.S.A. 3 Fred Hutchinson Cancer Research Center, Seattle, WA, U.S.A. There is strong evidence that melanoma-reactive Interestingly, the magnitude of melanoma-specific The cellular adaptive immune system generates a clones). We used these samples to test the preci- T cell responses induced by immunotherapeutic inter- T-cell responses that was already detected prior to remarkable breadth of diversity in Y-like antigen- sion, accuracy, and sensitivity of our assay. We ventions such as anti-CTLA4 (Ipilimumab) treatment start of therapy was not significantly altered. specific T-cell receptors (TCR) by combinatorial found that TCRβ repertoire sequencing accurately can exert clinically meaningful effects. However, at These results establish the pattern of melanoma- shuffling of gene segments in somatic cells. The captures the frequencies of clones across five orders present we have very little information on how these specific T-cell reactivity induced by anti-CTLA4 existence of multiple V, D, and J gene segments in of magnitude and is sensitive down to 1 in 100,000 therapies influence tumor-specific T-cell responses. treatment and form a benchmark for evaluation of the TCR loci (TCRβ/TCRα and TCRδ/TCRγ) permits cells. These results indicate that T-cell receptor Furthermore, as the number of potential melanoma- other immunotherapeutic interventions, like anti- large combinatorial diversity in receptor composi- sequencing is an accurate method to track T-cell associated antigens to which these responses can be PD1 treatment, that are currently undergoing clini- tion, and template-independent deletion or inser- clones of interest. Potential applications include directed is very high, classical strategies to map cy- cal evaluation. Furthermore, the data suggest that tion of nucleotides at the V-J, V-D, and D-J junctions tracking Minimal Residual Disease and tracking totoxic T-cell reactivity do not suffice. Knowledge of the clinical activity of Ipilimumab may be mostly further adds to the potential diversity. Because the clones used for Adoptive Immune Therapy. such reactivities would be useful to design targeted due to epitope spreading, rather than through en- potential diversity of receptors is large (approxi- strategies, selectively aiming to induce immune re- hancement of pre-existing immune activity. mately 10 million different TCRβ), it is improbable activity against these antigens. to randomly converge on the same CDR3 sequence, To address this issue, we have recently developed effectively making each CDR3 sequence a unique MHC multimer-based technology allowing high- nucleotide tag for a T-cell clone. However, the diver- throughput dissection of therapy-induced CTL im- sity of possible receptors is huge, making identify- munity. We have now used this platform to monitor ing and tracking clones difficult. immune reactivity against a panel of 145 melano- We have developed immunoSEQ, a method that ma-associated epitopes in patients receiving Ipili- amplifies rearranged TCRβ CDR3 sequences and mumab treatment. uses high throughput sequencing to sequence mil- Comparison of PBMC samples from 31 melanoma lions of chains per sample. This technology permits patients pre- and post-therapy demonstrates a sig- “clone-tracking” by both verifying the presence/ nificant increase in the number of detectable mel- absence of specific T-cell clones and estimating the anoma-associated CD8 T-cell responses (p=0.02). frequency of these clones within the overall rep- Furthermore, kinetic data on T-cell responses ertoire. We verified the feasibility of our assay to during Ipilimumab therapy suggest that this quantitatively track clones of interest by sequencing broadening generally occurs within weeks after the repertoire of samples doped with T-cell clones start of therapy. The pattern of reactivities detect- across a 5-fold range (10-1,000,000 cells). Two in- ed is highly patient specific, and this is most pro- dependent laboratories blindly sent us samples nounced for reactivities directed against cancer/ with clones spiked into a diverse background at testis antigens. 3 concentrations (4 clones) or 4 concentrations (2 149 098 | Immunomonitoring 099 | Immunomonitoring HLA subtype variation strongly affects MHC multimer-based monitoring of antigen specific CD8 T-cell responses Cancer vaccination with telomerase peptide GV1001: The immune response relates to clinical outcome 1 1 1 1 1, 2, 3 2, 4 3 2 2 Marit van Buuren , Feline Dijkgraaf , Carsten Linnemann , Pia Kvistborg , 1 2 2 1 Mireille Toebes , Cynthia Chang , Gijsbert Grotenbreg and Ton Schumacher Jon Amund Kyte , Steinar Aamdal , Else Marit Suso , Paal Brunsvig , Svein Dueland , 3 5 6 3, 4 Gaute L Hansen , Christian Kersten , Stein Sundstrøm and Gustav Gaudernack 1 Department of Immunology, Netherlands Cancer Institute, Amsterdam, Netherlands 1 Section for Cell Therapy, Dept. of Oncology, Oslo University Hospital, Oslo, Norway Department of Microbiology, National University of Singapore, Singapore 2 Section for Clinical Cancer Research, Dept. of Oncology, Oslo University Hospital 3 Section for Immunology, Cancer Research Institute, Oslo University Hospital 4 Faculty of Medicine, University of Oslo 5 Center of Cancer Treatment, Southern Hospital of Norway, Kristiansand, Norway 6 Department of oncology, St Olav’s Hospital, Trondheim, Norway 2 150 In the field of immunomonitoring, the use of subtypes, as performed here for HLA-A*02, will The human telomerase reverse transcriptase in 13 subjects. Immune responders recorded a Major Histocompatibility Complex (MHC) multim- therefore be of importance for the development of (hTERT) is overexpressed in most human cancers. median progression-free survival (PFS) of 371 days, ers coupled to fluorochromes is a widely applied personalized immunomonitoring. We have developed the cancer vaccine GV1001, a compared to 182 days for non-responders (p=0.20). method to monitor antigen specific T-cell responses 16-mer hTERT peptide. Our previous trials with We attempted to investigate why some immune in patients using flow cytometry. T-cells recognize GV1001 as monotherapy demonstrated immune responders had apparent clinical benefit, while their peptide in a MHC restricted manner and it responses in ~60% of lung- or pancreatic cancer others did not. Interestingly, patients developing is therefore of obvious importance to know the patients. Here, we summarize main findings in two long term T-cell memory survived longer than those Human Leukocyte Antigen (HLA) haplotypes of recent trials combing GV1001 with chemo/radio- rapidly losing their responses. Contrary to subjects patients. Such HLA typing is often performed by therapy and report results from immunological without clinical response, long term survivors antibody staining or low resolution genotyping, follow-up studies. developed T-cell responses against a spectrum of which gives (2-digit) information about the HLA In a proof-of-principle trial in 25 stage IV mela- hTERT peptides unrelated to the GV1001 sequence. types expressed by an individual but ignores any noma patients (NCT01247623), we evaluated com- The immune responses in long term survivors also (4-digit) subtype variation. bined therapy with temozolomide and GV1001. exhibited other characteristics of possible clinical In this project we set out to assess to what extent The treatment was well tolerated, and a GV1001- significance, including high IFNγ/IL-10 ratios, pol- the small sequence changes that exist between HLA specific immune response was demonstrated in yfunctional cytokine profiles, combined T-helper/ subtypes affect the ability to detect antigen-specific 18/23 evaluated subjects. Five patients developed cytotoxic responses and recognition of naturally T-cells for a given peptide. To this purpose, we first partial tumor regression and six more recorded processed antigens. Finally, immune responders developed MHC peptide exchange technology for stable disease. The clinical responses developed with a low percentage of CD4 CD25 Foxp3 T-cells a series of eight different HLA A*02 subtypes. We gradually over years, contrary to what is expected had extended PFS, while no correlation between then created HLA multimers for each of these HLA from chemotherapy. Survival compared favourably myeloid suppressor cell counts and PFS was ob- A*02 subtypes with 10 different peptide antigens to matched controls from a benchmark meta-anal- served. for which we had created HLA A*02:01 restricted ysis (one year: 44% versus 24%, two years: 16% The immune response rates in the trials summa- T-cell clones. Importantly, while this set of T-cell versus 6.6%). rized above were considerable compared to pre- clones was reliably stained with the matched HLA A phase II trial (NCT00509457) was conducted in vious trials with GV1001 as monotherapy, while A*0201 multimer, staining with multimers for other 23 patients with inoperable stage III non-small cell low toxicity was retained. Our results support the HLA A*02 subtypes was highly variable. lung cancer (NSCLC). The patients received radio- concept of combining chemo/radiotherapy with We conclude that even minor sequence variation therapy and weekly docetaxel, followed by GV1001 vaccination and warrant further studies of GV1001. between HLA subtypes can greatly influence the vaccination. We observed no serious adverse In cooperation with Kael Gemvax, we have initi- ability to detect antigen-specific T-cell responses events. A GV1001-specific immune response devel- ated a randomized GV1001 trial in stage III NSCLC by MHC multimer staining. Generation of MHC- oped in 16/20 evaluable patients. Long term immu- patients. based monitoring technology for large sets of HLA no-monitoring demonstrated persisting responses + + + 151 100 | Immunomonitoring 101 | Immunomonitoring NY-ESO-1 and Melan-A-reactive T-cells are predictive for the clinical outcome of late-stage melanoma patients Reference samples to control performance of HLA-peptide multimer staining experiments – First results from a proficiency panel testing 1 2 1 2 1, 2 1, 2 3 2 1, 2 4 Henning Zelba , Benjamin Weide , Evelyna Derhovanessian , Claus Garbe , Graham 1 Pawelec N. Bidmon , H. Filbert , C. Gouttefangeas , U. Sahin , S. Attig , S. H. van der Burg , 2 C.M. Britten 1 Department of Internal Medicine II, Section for Transplantation Immunology and Immuno haematology, University Hospital Tübingen, Germany 1 III. Medical Department, University Medical Center of the Johannes Gutenberg University Mainz, Mainz, Germany 2 Department of Dermatology, Division of Dermatooncology, University Hospital Tübingen, Germany 2 Translational Oncology at the University Medical Center of the Johannes Gutenberg University Mainz (TRON), Mainz, Germany 3 Department of Immunology, Interfaculty Institute for Cell Biology, University of Tübingen, Tübingen, Germany 4 Department of Clinical Oncology, Leiden University Medical Center, Leiden, Netherlands For the CIMT Immunoguiding program Chemotherapy is still the standard treatment for PBMCs, the assay readout was an intracellular cy- The lack of standard control reagents for immu- Results from this proficiency panel show (i) fea- late-stage melanoma patients, but clinical outcome tokine staining using multicolor flow cytometry nological T-cell assays prohibits comparability of sibility of RS use across 12 participating labs, (ii) is poor. Alternative approaches are required and to detect six cytokines simultaneously (IFN-γ, results generated in one lab over time and across in- high reproducibility of results generated between immunotherapy is becoming increasingly ex- TNF, IL-2, IL-4, IL-17 and IL-10). This allowed us stitutions. Therefore commonly available reference two time points, (iii) low background staining ploited for melanoma management. Clinical trials to analyze the phenotype and the function of the samples (RS) that can be manufactured at large of relevant dextramers to the negative control RS of vaccines and immunomodulators are yielding T-cell antigen-response at the single-cell level. scale and continuously lead to stable results are ur- batch, (iv) lack of cross-reactivity of the irrelevant impressive results, but still only in a minority of We show here that the presence of NY-ESO-1 and/ gently needed. We established a process to generate multimer with the RS and (v) compatibility of RS patients. Patient parameters associated with suc- or Melan-A-reactive T-cells was significantly as- stable standard samples to control the performance to use with multiple sources of HLA-A2-peptide cessful therapy are largely undefined, and whether sociated with survival and predicted the clinical of HLA-peptide multimer experiments and other multimers. targeting particular antigens can result in a better outcome even more strongly than the M category or T-cell assays. In our hands, these RS showed high In summary the results from this proficiency panel clinical outcome than others is not clear. Further- type of therapy received. NY-ESO-1 was generally reproducibility and stability. The purpose of this suggest that RS are useful tools to control immune more, predictive markers are lacking. Lactate de- recognized more frequently by CD4 than by CD8 + exploratory proficiency panel (CIP_ID12_MUL/E) assay performance over time or across institutions. hydrogenase is thus far the only well-accepted bio- T-cells, both being associated with a positive effect was to find out how RS perform in the hands of marker for malignant melanoma. The amount of on patient survival. In contrast, Melan-A mainly experienced investigators in a heterogeneous group List of participants: + + + LDH (and other markers), however, does not allow stimulated CD8 T-cells and recognition by CD4 of labs that apply different assay protocols. 1) A. Cazaly – Southampton General Hospital, England the prediction of the clinical outcome of a single T-cells was associated with a bad clinical outcome. PBMCs from a HLA-A2 positive buffy coat donor 2) C. Gouttefangeas – University of Tübingen, Germany patient. Initially, we observed in a small cohort Taken together, our data confirm the important role were used to generate three different RS batches 3) M. Hasan – Institut Pasteur, Paris, France of late-stage melanoma patients that the presence of NY-ESO-1 and Melan-A as target antigens of first either lacking (negative control) or containing high 4) T. Jakobsen – Immudex, Copenhagen, Denmark in the peripheral blood of antigen-reactive T-cells choice for melanoma-immunotherapy. The fact that or low numbers of CD8 T-cells specific for a HLA-A2 recognizing the cancer/testis antigen NY-ESO-1 in each antigen is preferentially detected by a certain restricted peptide derived from the tumor antigen 5) P. Kvistborg – Netherlands Cancer Institute, Amsterdam, Netherlands vitro seems to correlate with survival. In order to cell type and that this had strong impact on sur- NY-ESO-1. Quality-controlled aliquots of the RS determine whether the presence of T-cells capable vival, at least for Melan-A, should be considered batches were shipped to 12 participating labs to- of detecting tumor-associated antigens allows pre- for upcoming trials. gether with an irrelevant HLA-A2 and a specified 7) R. Mendrzyk – Immatics biotechnologies GmbH, Tübingen, Germany diction of clinical outcome, we assessed T-cell re- NY-ESO-1 HLA-A2 dextramers. Each laboratory was 8) P. Palluch – Helmholtz-Zentrum München, Germany sponses against 4 common melanoma-associated asked to use the three RS batches in HLA- peptide 9) S. Reker Hadrup – University Hospital Herlev, Denmark antigens in 116 stage IV melanoma patients. multimer staining experiments at two independ- We assayed functional antigen-reactive T-cells ent time points using the two centrally provided 10)M.J.P. Schoenmaekers-Welters – Leiden University Medical Center, Netherlands recognizing NY-ESO-1, Melan-A, MAGE-A3 and dextramers. Optionally, participants were allowed survivin after 12 days of in vitro expansion with to perform a third data set using a locally available overlapping peptides representing these molecules. NY-ESO-specific HLA-A2-peptide multimer. 6) J. Matsuzaki – Roswell Park Cancer Institute, Buffalo, United States 11)J. de Vries – Radboud University Nijmegen Medical Centre, Netherlands 12)N. Bidmon – University Medical Center of the Johannes Gutenberg University, Mainz, Germany After restimulation with autologous antigen-pulsed 152 153 102 | Immunomonitoring 103 | Immunomonitoring Reference Samples as stable controls for T-cell assays Treg Flow Cytometry Staining – Hunting a FOX 1, 2 1 2 2 2 1, 2 2 N. Bidmon , S. Attig , T. Omokoko , P. Simon , S. Kreiter , H. Filbert , R. Rae , 2 3 2 U. Sahin , S. H. van der Burg , C.M. Britten 1 III. Medical Department, University Medical Center of the Johannes Gutenberg University Mainz, Mainz, Germany 2 Translational Oncology at the University Medical Center of the Johannes Gutenberg University Mainz (TRON), Mainz, Germany 3 Department of Clinical Oncology, Leiden University Medical Center, Leiden, Netherlands 154 1 2 3 1 1 Richard Rae , Sebastian Attig , Cecile Gouttefangeas , Ugur Sahin and Cedrik Britten 1 TRON - Translationale Onkologie an der Universitätsmedizin der Johannes Gutenberg-Universität Mainz gGmbH 2 Universitätsmedizin der Johannes Gutenberg-Universität III. Med. Klinik / TVZ 3 Institute for Cell Biology, Department of Immunology, University of Tübingen, Tübingen, Germany Different assay platforms are used for the quan- ing a high reproducibility of results. Long-term When enumerating Tregs using flow cytometry, primarily capture the very same Tregs as a panel tification of antigen-specific T-cell responses on studies confirmed the stability of the RS for over there is a large selection of markers available for that requires the fixation and permeabilisation of a single cell level. Reference Samples (RS) that 6 months. For ICS experiments we generated and use. CD3 and CD4 are essential to find the CD4 the nucleus to allow FoxP3 staining. This Simple contain a defined number of antigen-specific tested an HLA class I (B7-restricted) and an HLA T-cells – the parent population including the staining and gating also has the added advantage T-cells to continuously provide stable signals in class II (DBR1*0401-restricted) specific RS and Tregs – but truly Treg specific markers are not so of excluding CD25 Foxp3 T-cells that have been repetitively performed assays are urgently needed. confirmed high reproducibility of results (CV~ easy to select. We have designed and optimised shown to only transiently express FoxP3 and to be We developed an optimized process to generate 20%) generated from subsequently tested aliquots a flow panel containing the Treg markers CD127, not suppressive. Finally, a strategy to capture Tregs RS containing a defined number of T-cell recep- for four commonly used T-cell activation markers. CD25, FoxP3, CD103 and CCR4 along with 3 differ- that is solely based on staining of surface markers tor (TCR)-engineered lymphocytes with maximum The RS showed high stability even after 6 month of ent gating strategies using combinations of these allows for sorting of viable cells for use in func- functionality and high viability. Applying the storage in liquid nitrogen. We also generated prom- markers. Surprisingly, we have found that the cells tional assays. - + + optimized process, multiple RS batches contain- ising results in ELISPOT assays using multiple RS that fall in the “Classical” Treg gating (CD4 CD- ing defined concentrations of antigen-specific T batches (B7- and DRB1*0401-restricted) containing 127 lymphocytes for two known tumor antigens (ty- defined numbers of NY-ESO-1 specific T-cells. high concordance to those found using a “Simple” rosinase and NY-ESO-1) were generated. At CIMT In summary we were able to establish the proof of (CD4 2011 we presented the results of the production and concept for three major assay platforms using an op- strategy, namely a mean of ~80% concordance of optimization process for HLA-A2-restricted tyrosi- timized, newly developed manufacturing process events in 10 healthy donors. Moreover, quantifi- nase and NY-ESO-1 specific RS that were applied for standard controls. We conclude that optimized cation of Tregs using the “Simple” gating strategy in HLA-peptide multimer staining experiments. In TCR RNA-engineered RS can serve as a stable and gives highly reproducible results with an intra- and this study we (i) show extended stability data for defined source of antigen-specific T-cells that exert inter-assay coefficient of variance below 7%. RS in HLA-peptide multimer experiments, (ii) the full functionality. Multiple aliquots of such RS can We have also shown that additional gating with performance characteristics and stability data for be used repetitively to facilitate assay development CCR4 (“Alternative gating”), that has recently been HLA-B7- and DRB1*0401-restricted RS applied in and to serve as internal controls in immunological proposed by flow cytometry networks in the USA, intracellular cytokine staining (ICS) experiments assays applied in correlative biomarker studies. is not beneficial in our hands to help identifying low + hi + CD25 FoxP3 T lymphocytes) have a very low CD127 CD25 hi T lymphocytes) gating and (iii) first proof of concept experiments for RS Tregs. These findings have also been confirmed in technology used in ELISPOT assays. cancer patient peripheral blood samples as well as Single aliquots from generated HLA class I (A2- tumour infiltrating lymphocyte samples. We have restricted) specific RS were thawed and indepen- also shown that CD103 is highly expressed in TIL dently tested in multimer stainings using HLA- samples but is not highly expressed on the Tregs peptide tetramers or dextramers. The coefficient of the TILs. of variation for the thawed RS in the multimer We propose that in future flow panels only extra- staining experiments was less than 10% indicat- cellular Treg markers should be stained as this will 155 104 | Immunomonitoring 105 | Immunomonitoring Activation, Dysfunction and Retention of Antigen-Reactive T-cells in the Vaccine Site Microenvironment after Multipeptide Vaccine in Incomplete Freund’s Adjuvant Myeloid sub-populations are correlated to survival in patients with cervical cancer 1, 2 1 1 1 1, 2 2 2 3 Sofia M. Shea , Walter C. Olson , Chantel McSkimming , Elise P. Salerno , 1 1, 3 1 1 Donna H. Deacon , Jochen T. Schaefer , Kim Bullock , Craig L. Slingluff Jr. Peggy de Vos van Steenwijk , Tamara Ramwadhoebee , Eline Doorduijn , Arko Gorter , 1 2 3 Mariëtte van Poelgeest , Sjoerd van der Burg , Ekaterina Jordanova 1 Division of Surgical Oncology, Department of Surgery, University of Virginia, Charlottesville, VA USA 1 Departement of Gynecology, Leiden University Medical Center, Leiden, Netherlands Department of Dermatology, University of Virginia, Charlottesville, VA USA 2 Departement of Clinical Oncology, Leiden University Medical Center, Leiden, Netherlands Department of Dermatology, University of Connecticut, Farmington, CT USA 3 Departement of Pathology, Leiden University Medical Center, Leiden, Netherlands 2 3 Melanoma vaccines have been associated with regres- an early Th2 dominant microenvironment with subse- sions in 3-6% of patients with advanced measurable quent accumulation of eosinophils. disease, but have not been optimized. While defined By flow cytometry, we found that the majority of CD8 peptides are attractive vaccine candidates; the admin- T-cells (62-65%) in the VSME were effector memory istration of these peptides in water-in-oil emulsions of cells (CCR7 /CD45RA ). The vaccine sites for group incomplete Freund adjuvants, may limit immunogenic- 2 were enriched for CD8 T-cells expressing T-cell re- ity and clinical benefit. We hypothesized that lymphoid ceptors for peptides in the vaccine (tetramer-positive neogenesis may be induced at sites of repeated injection T-cells) compared to the blood (median 1.42% vs. with cancer vaccines, and that this may have both posi- 0.25%, respectively, p< 0.01, t-test) and were low in tive and negative impacts on vaccine efficacy. replicate vaccine sites after IFA only (median 0.34%). We conducted a randomized clinical trial in 44 patients Among tetramer positive cells in the vaccine site, 86% focused on characterization of cellular and molecular were activated (CD69+) and most of these cells (57%) events, over time, induced at sites of immunization expressed CXCR3. However, only 5% of the tetram- with peptides in an incomplete Freund’s adjuvant, er+ CD8 T-cells produced interferon γ by ELIspot after Montanide ISA-51 (IFA). Patients with resected AJCC stimulation with peptides in the vaccines. Thus, anti- stage IIB-IV melanoma, expressing HLA-A1, A2, A3, gen-reactive effector memory CD8 T-cells accumulated or A11, were injected in two skin sites. At the primary at sites of vaccination with peptides plus IFA, but were vaccine site, the full vaccine (12 Class I MHC restricted either exhausted or in a refractory state due to pro- melanoma peptides and a tetanus helper peptide emul- longed antigen exposure. The accumulation of these sified in IFA) was administered to all participants at T-cells in the VSME raises questions about whether days 1, 8, 15, 29, 36, and 43. At a replicate vaccine site, they are being induced there or are trafficking after the injectate differed between the 2 primary arms of activation in vaccine-draining nodes. Antigen-specific the study: participants in study group 1 received IFA T-cells in the VSME for group 2 expressed retention only; those in study group 2 received the full vaccine. integrins αEβ7 and α1β1 at high frequency (38 and Within each study group, participants were further 77% respectively); whereas both are almost complete- randomized to undergo excisional biopsy of the rep- ly absent from circulating antigen-non-reactive T-cells licate site on one of five possible days; day 1, 8, 22, (3% and 5% respectively). 50, or 85. Thus, although IFA is a useful adjuvant in peptide Histologic analysis of the vaccine site microenvironment vaccines by generating circulating antigen reactive + neg (VSME) revealed a T-cell (CD3 ) predominance. Both T-cells, the cytokine milieu generated by it is subopti- the T-cell and B-cell components expanded with repeat mal. There is evidence that the combination of IFA and vaccinations; however, the T-cell component expanded antigen leads to retention of antigen-specific T-cells at + more quickly. Mature (CD83 ) dendritic cells were found + the VSME; and therefore the cells may not be able to in the papillary dermis, and immature (CD1a ) dendritic exit the VSME to provide systemic immunity. Further cells were found within the inflammatory infiltrates, but characterization of the VSME is warranted to guide + neither expanded significantly. FoxP3 cells increased + after 3 vaccinations. Analysis of the CD4 cells showed 156 neg selection of optimal adjuvants for use with peptide vaccines. Introduction: Cancer development is a proces the CD14 single positive cells in the tumor corre- defined by the tumor within its micro-environment lates to a beter survival (p=0.011), negative lym- which is influenced by the host immune system. phnodes (p=0.006) and no parametrial invasion Various variables have been correlated to survival (0.046). The only myeloid celltype that seems to in cervical cancer, yet little is known about the have a tumor promoting effect is the CD163 single presence and role of myeloid subsets. positive cell in the stroma, which was correlated to Aim: The aim of this study was to investigate the positive lymphnodestatus (0.037), a dieper tumor presents of myeloid cells in a group of 87 cervical infiltration (0.027) and to a worse suvival (though carcinoma patients undergoing an hyseterctomy and this was not significant p=0.077). their correlation to clinical parameters and survival. Conclusion: CD14 myeloid cells in the tumor epi- Materials and methods: Paraffin-embedded tissue thelium have a positive effect on survival, whereas sections from 87 patients were stained by immuno- CD163 single positive cells in the stroma are cor- histochemistry using antibodies to CD33, CD14 and related to worse survival. + CD163 and counted manually. Statistical analysis was performed using the Chi-squared test. Kaplan– Meier survival curves were generated to assess differences in cumulative overall survival. Results: The most commen myeloid cell types in the + tumor epithelium were CD33 polymorphonuclear + + cells (31%), CD14 CD33 CD163 triple positive cells (19%) and CD14 single positive cells (12%). The cell distribution in the stroma was similar yet differed slightly with more CD163 single positive cells (10%) + following the most abundant CD33 polymorpho+ + nuclear cells (39%) and CD14 CD33 CD163 triple + positive cells (18%). The presence of CD14 myeloid cells in the tumor epithelium has an independent positive effect on survival (p= 0.03). Expecially 157 106 | Immunomonitoring 107 | Immunomonitoring Quantitative determination of tumor-specific Treg in lymphatic compartments of patients IMA910, a novel multi-peptide cancer vaccine for advanced colorectal cancer, induces multiple CD8+ and CD4+ T-cell responses associated with improved survival 1 1 1 1 1 Hans-Henning Schmidt , Felix Jerg Hartmann , Yingzi Ge , Philipp Beckhove 1 Department of Translational Immunology, DKFZ, Heidelberg, Germany 1 1 1 1 immatics biotechnologies, Tübingen, Germany 2 Department of Oncology, Hematology, Immunology, Rheumatology and Pulmonology, University of Tübingen, Tübingen, Germany 3 Department of Internal Medicine and Chemotherapy “B”, National Institute of Oncology, Budapest, Hungary 4 Department of Clinical and Experimental Oncology, Centrum Onkologii Instytut im. Marii Skłodowskiej-Curie, Gliwice, Poland 5 Department of Oncotherapy, University of Szeged, Szeged, Hungary 6 Department of Pathology and Diagnostics, University of Verona, Verona, Italy Regulatory T-cells (Treg) are a subset of CD4 + Treg specificity. By this method peptides derived T-cells which are able to suppress immune reac- from Mammaglobin A and Her-2 specifically rec- IMA910 is a novel peptide-based vaccine consisting multiple CD8 and CD4 T-cell responses, respective- tions. In tumor immunology Treg are known to ognized by Treg were identified in up to 35% of of 10 HLA-A*02 and 3 HLA-DR binding synthetic pep- ly. Patients that received imiquimod presented with play a detrimental role as elevated tumor-infiltrat- breast cancer patients. HLA tetramers were formed tides that were identified based on natural presenta- significantly more multiple CD8 cell responses as ing Treg correlate with poor prognosis in several with the defined antigens. With these the spatial tion on human colorectal cancer (CRC) samples. detected by ICS (p=0.016) and a trend to increased cancer types. It has been shown that engagement of distribution between peripheral blood and bone IMA910 was characterized in a phase I/II trial in response magnitudes by HLA-multimer anaysis cognate antigen presented by suitable human leu- marrow and the phenotype of TAA specific T-cells advanced/metastatic CRC patients with stable or re- (p=0.12). kocyte antigen (HLA) molecules can activate Treg in patients was examined. sponding disease after 12 weeks of first-line oxalipl- IMA910 antigen-specific multiple CD8 and multi- suppressive activity. However, antigen specificity Tumor specific T-cells could be found in the major- atin-based therapy (92 HLA-A*02 patients in total). ple CD4 of cancer patient derived Treg is poorly defined. ity of analyzed patients with an average frequency After immunomodulation with a single dose of cyclo- with significantly better clinical outcome. The as- HLA tetramers can be used to stain T-cells specific of 0.2% of the CD4 TC. In previous experiments phosphamide (300 mg/m ), patients were immunized sociation was most pronounced for patients with for the peptide they recognize. For the generation of we could show that the frequency of Treg in the intradermally (up to 16 vaccinations) with IMA910 in both multiple CD8 and multiple CD4 responses. HLA tetramers the sequence of the peptide and the bone marrow of patients is significantly reduced combination with GM-CSF without (cohort 1; n=66) These patients had significantly higher DCR at 6 HLA it is presented on have to be known. compared to the peripheral blood. With the tetram- or with (cohort 2; n=26) topically applied imiquimod. months (p=0.002), improved TTP (p=0.006) and Our previous studies showed that an otherwise ers we could prove that the same tendency is true Before and post vaccination, patients were analyzed improved PFS (p=0.009) than other patients. Most latent T effector/memory response against some for tumor specific Treg. In addition we found that by HLA-multimer assay and intra-cellular cytokine importantly, a trend for prolonged OS was also tumor-associated antigens (TAAs) was enabled by the frequency of tumor specific Treg of the total (ICS) assay for CD8 the depletion of Treg. This was especially true for Treg is significantly lower in the bone marrow than assay for CD4 T-cell responses. As immune status 0.53). two TAAs in breast cancer Mammaglobin A and in the blood of breast cancer patients. biomarkers, 6 phenotypically defined myeloid derived In the study population, levels of 5 different MDSC Her-2 showing the presence of Treg with respective To our knowledge this is the first time that tetram- suppressor cell populations (MDSC1-6) were analyzed phenotypes were significantly increased as compared specificities in breast cancer patients. Polypeptides ers were used to stain tumor specific regulatory prior to immunotherapy. Tumor status of patients was to age/gender matched controls. High MDSC levels (50 amino acids) of these antigens recognized by T-cells in the blood and the bone marrow. With monitored repeatedly by CT/MRI according to RECIST were associated with fewer immune responses and for Treg were identified in a Treg-specificity assay. this method we could analyze the localization of and corresponding tumor scans were reviewed cen- MDSC4 and MDSC5 high frequencies were associated The bioinformatics tool SYFPEITHI was used to tumor specific Treg in lymphatic compartments of trally. Clinical assessment included disease control with shorter OS (p=0.007 and p=0.019, respectively). predict potential HLA class II presented peptides of breast cancer patients. The results will give a better rate (DCR), time to progression (TTP), progression- Interestingly, the same MDSC phenotypes had been these polypeptides. These were tested for their spe- understanding of Treg immunity, which might lead free survival (PFS) and overall survival (OS). previously observed to be associated with survival in cific recognition by Treg in HLA-DR typed breast to the improvement of therapies. IMA910 was immunogenic in 73/81 (90%) evaluable renal cell carcinoma patients implying a more general patients, with 43% and 65% of patients mounting role for these populations. cancer patients by the same functional assay of 158 1 Steffen Walter , Sabrina Kuttruff , Sarah Kutscher , Andrea Mayer , Oliver Schoor , 1 2 3 4 5 Jörg Ludwig , Frank Mayer , Erika Hitre , Elżbieta Nowara , László Torday , 1 1 1 1 6 Bernhard Rössler , Dominik Maurer , Verona Vass , Juha Lindner , Vincenzo Bronte , 1 1 1 1 1 Nina Pawlowski , Claudia Trautwein , Jörn Dengjel , Norbert Hilf , Toni Weinschenk , 1 1 1 Jürgen Frisch , Carsten Reinhardt , Harpreet Singh + + 2 + T-cell responses and by ICS + + + + + + responses were individually associated + + observed in these patients (p=0.088, hazard ratio 159 108 | Immunomonitoring 109 | Immunomonitoring Immune Monitoring of Poxvirus based Cancer Immunotherapies Homing receptor expression by T-cells infiltrating the metastatic melanoma microenvironment and relevance to combination immune therapy Rachel Owen, Fatema Legrand, Amanda Enstrom, Olivia Hwang, Gayatri Paranjpe, Jinsoo Joo, Joy Su, Bernadette Callejo, Alex Chung, Jess Nolin, Olga Bandman, Wayne Godfrey, Reiner Laus, Alain Delcayre Elise P Salerno , Walter C Olson , Chantel McSkimming , Sofia M Shea , Craig L Slingluff, Jr Department of Research and Development, BN ImmunoTherapeutics Inc., Mountain View, CA, USA 160 1 1 1 1, 2 1 Department of Surgery, University of Virginia, Charlottesville, VA USA 2 Department of Dermatology, University of Virginia, Charlottesville, VA USA 1 T-cell infiltration into the metastatic melanoma micro- in small bowel metastases (42 ± 21%), but not in other environment (MME) correlates with improved patient sites (8 ± 8%, p=0.001). Among antigen-experienced survival and response to immune therapy. However, CD8 T-cells, CCR5 cells were enriched (85 ± 11%) diffuse T-cell infiltration is evident in less than 10% in distant metastases, compared to TIN (61 ± 18%, of melanoma metastases, and little is known about p=0.014) and PBMC and LN (55 ± 7%, p=0.001). mechanisms governing T-cell infiltration into human Distant metastases had more CCR4 cells (58 ± 5%) + + + melanoma metastases, or about how infiltration may than TIN (43 ± 16%, p=0.033), PBMC and LN (44 ± BN ImmunoTherapeutics Inc. is developing cancer tion assay. In addition, humoral responses were as- be augmented therapeutically. This study was designed 11%, p=0.021). CXCR3 expression was low in metasta- immunotherapies using poxvirus based vectors sessed by ELISA. Immune monitoring revealed the to identify homing receptors on T-cells infiltrating the ses (14 ± 12%) compared to LN (26 ± 5%), and CLA+ that encode heterologous cancer antigens. The induction of humoral and/or T-cell responses spe- MME. We hypothesized that T-cells in the MME would cells were underrepresented in metastases (10 ± 2%) MVA-BN® vector is a highly attenuated vaccinia cific to the transgene encoded by the vector in the be enriched for homing receptors relevant to the tissue compared to PBMC (15 ± 2%, NS). Among antigen- virus that is non-replicating in humans and has majority of patients treated with MVA-BN®-HER2 site, including cutaneous leukocyte antigen (CLA) for experienced CD4 cells, CCR5 cells were markedly been shown to be an immunogenic vaccine. This and MVA-BN®-PRO. The presence of a pre-existing skin metastases and chemokine receptor 9 (CCR9) for increased in skin and bowel metastases (72 ± 15%) vector has been utilized to express tumor specific immune response to MVA did not impair the in- small bowel metastases. Also, because CCR4, CCR5 compared to PBMC, LN and TIN (13 ± 7%, p<0.001), proteins for breast cancer (MVA-BN®-HER2) and duction of transgene specific immune responses. and CXCR3 have been implicated in tumor homing, and other findings were similar to those for CD8s. A prostate (MVA-BN®-PRO) cancer. MVA-BN®-based Additionally, vaccine-induced determinant spread- we hypothesized that T-cells expressing them would striking finding was a marked increase in expression of immunotherapy vectors have been tested in proof- ing was evident in tumor-bearing patients treated be increased in the MME. Single cell suspensions from retention integrins in CD8 T-cells: whereas αEβ7 was of-concept animal models as well as in early stage with MVA-BN®-HER2 and MVA-BN®-PRO. The 14 melanoma metastases representing three metastatic expressed on a mean of only 3 ± 1% of CD8 T-cells clinical settings. therapies were well tolerated with no dose-limiting sites: tumor-infiltrated lymph node (TIN, n=8), skin and in PBMC and LN, this increased to 18%, 28%, and 76% MVA-BN®-HER2 utilizes a poxviral vector that toxicities or serious adverse events reported. The subcutaneous tissue (skin, n=3) and small bowel (n=3) in TIN, skin metastases, and small bowel metastases, encodes a modified and truncated form of the data suggest that MVA-BN®-HER2 and MVA-BN®- were evaluated by multiparameter flow cytometry. respectively (SDs 13-17%), One-way ANOVA p<0.001). HER-2 epidermal growth factor receptor (HER-2 PRO are well-tolerated, immunogenic, and support These were compared to two benign lymph nodes (LN) There were similar increases in α1β1 and α2β1 retention extracellular domain plus 2 tetanus toxoid peptide going forward with larger efficacy trials. and normal donor peripheral blood mononuclear cells integrins in metastases. epitopes), and has been tested in metastatic and ad- (PBMC). Comparison of means was performed using Thus, the phenotype of T-cells infiltrating melanoma me- juvant breast cancer. MVA-BN®-PRO has been en- 2-tailed t-tests for independent samples. tastases is predominantly one of activated effector-mem- gineered to encode prostate specific antigen (PSA) There was a trend to an increased CD8/CD4 T-cell ratio ory cells, with high expression of retention integrins. and prostate acid phosphatase (PAP) proteins and in metastases compared to PBMC and LN (p=0.065), Regulatory T-cells also appear prevalent, likely balancing was evaluated in an open-label multi-center dosing with low numbers of B cells and myeloid cells. Among the antitumor activity of the CD8 cells. Low numbers of + evaluation clinical trial in non-metastatic castra- all 14 metastases, CD8 T-cells in the MME had an tion resistant prostate cancer (CRPC). effector-memory phenotype: 86% CD45RA neg neg + + + + CLA+ and CXCR3 T-cells likely reflect low expression of E-selectin in intratumoral endothelium and low levels (85-100%), and ex- of CXCR3-cognate chemokines (CXCL9-11) produced by range 53-99%) and 98% CCR7 BN®-HER2 and MVA-BN®-PRO who were enrolled pressed markers of activation: 65% CD69 (17-94%), + neg (7-76%), 10% CD27 + (median, Immune evaluation of patients treated with MVA- neg + + melanoma cells in these metastases. T-cells expanded by in phase I clinical trials was performed to measure 28% CD28 (3-31%). FoxP3 / vaccines, cytokines, or adoptive T-cell therapy may be the immunogenicity of the poxvirus based immu- CD127 cells (putative regulatory T-cells) represented more capable of reaching their tumor targets by combi- lo + notherapies. A range of assays were performed, 25 ± 6% (mean ± standard deviation) of CD4 cells nation with interventions that upregulate endothelial E- including phenotypic analyses by flow cytometry, in distant metastases, but only 10 ± 4% in the TIN selectin and intratumoral expression of chemokines for assessment of cellular immune responses by the (p=0.003). As expected, antigen-experienced CD8 CCR5 and CXCR3, as well as by interventions that induce IFN-γ ELISPOT assay and a CFSE-based prolifera- T-cells expressing CCR9 were found almost exclusively expression of the retention integrins by T-cells that enter 161 110 | Immunomonitoring 111 | Immunomonitoring Detection of tumour antigen specific T-cell populations in leukaemia: markers of good prognosis? TransHLA – A Method for determining the HLA genotype from RNA-Seq data 1 1 2 1 3 Suzanne Brooks , Stephanie Bonney , Evelien Smits , Cindy Lee , Dagmar Sigurdardottir , 3 4 4 2 Hans-Georg Rammensee , Karen Pulford , Alison Banham , Viggo Van Tendeloo , Ghulam 5 1 1 1, 5,6 J. Mufti , Tim J. Elliott , Kim H. Orchard , Barbara-ann Guinn 1 Cancer Sciences Unit (MP824), University of Southampton, SO16 6YD, U.K. 2 Laboratory of Experimental Hematology, Vaccine and Infectious Disease Institute, University of Antwerp, Belgium 3 Department of Immunology, Institute for Cell Biology, University of Tübingen, Germany 4 Nuffield Department of Clinical Laboratory Sciences, University of Oxford, Level 4 Academic Block, John Radcliffe Hospital, Headington, Oxford, Oxon. OX3 9DU, UK 5 Department of Haematological Medicine, The Rayne Institute, London, SE5 9NU, UK 6 Division of Science, University of Bedfordshire, Park Square, Luton, LU1 3JU, UK 1, 2 1 1, 2 1 1 Sebastian Boegel , Martin Löwer , Michael Schäfer , Thomas Bukur , Jos de Graaf , 1 1 1 1, 2 Valesca Boisguerin , Mustafa Diken , John Castle , Ugur Sahin 1 TRON – Translational Oncology at the University Medical Center Mainz, 55131 Mainz, Germany 2 University Medical Center of the Johannes Gutenberg University Mainz, III. Medical Department, Mainz, Germany Peptide major histocompatibility complex (pMHC) and 2 unknowns). We found that 13 acute myeloid The human leukocyte antigen (HLA) loci are As a proof of concept, we successfully applied the arrays can improve our understanding of the specif- leukaemia and one acute lymphocytic leukaemia highly polymorphic with single nucleotide poly- method to 50 CEU HapMap individuals yielding ic T-cell populations involved in immune responses patients had specific-T-cell populations recognis- morphisms, insertions and deletions distinguish- 100% specificity and 90.8% sensitivity at a confi- during conventional treatment and immunotherapy ing epitopes within 8 tumour antigens including ing 5,468 known Class I and 1,591 Class II Alleles dence value > 0.85 and to 14 commercially avail- clinical trials. In the longer term this could guide PASD1, WT1126-134, MelanA and/or Tyrosinase. We distributed in the human population (as of October able tumor cell lines resulting in 84.5% accuracy. clinical decisions towards more individualized, are now investigating whether these responses cor- 2011). Besides being generally essential for the Analysis of the remaining 15.5% of missed alleles and potentially more effective, treatments. One relate with response to treatment. We have devel- immune function, the individual HLA type is im- and mistypings reveals insights in HLA loss and major advantage of the technique is its ability to oped a robust method for the simultaneous analysis portant e.g. for allotransplantation of organs and downregulation in tumor cells. simultaneously analyse multiple T-cell populations of T-cell populations in leukaemia patients, which prevention of transplant rejection. + using small numbers of “untouched” CD8 T-cells can indicate a short-list of T-cell populations for Next generation sequencing (NGS) is a rapidly (approximately 0.8 - 1.2 x 10 CD8 T-cells/array). further investigation of T-cell function minimising evolving technique for parallel sequencing of bil- In addition pMHC arrays use very small amounts of reagent and sample use. lions of nucleotides. With the associated per-nu- 6 + th pMHC per spot (1ng, 1/1,000 of that used in flow cleotide costs constantly decreasing, NGS becomes cytometry) and can simultaneously analyse a large available for routine clinical applications. Espe- number of T-cell populations without haplotype cially re-sequencing of a panel of targeted genomic + restriction. CD8 T-cells were negatively isolated regions or transcripts for individual patients from leukaemia patients, lipophillically dyed with becomes cheap and time efficient. DiD and incubated with pMHC arrays printed with Here we present a method for obtaining an individ- more than 50 tumour-associated antigen (includ- ual HLA type using NGS transcriptome (RNA-Seq) ing WT1 and Proteinase 3) and viral epitopes (in- data. This method consists of a mapping and a re- cluding CMV and Flu). Positive scoring of T-cells finement step. In the mapping step, RNA-seq reads bound to pMHC were only made when T-cells were are aligned against a reference database contain- consistently bound to the same pMHC spots in two ing the coding sequences of all known HLA alleles. distinct regions on the array. We have analysed In the refinement step, the loci are classified into 41 samples from 33 patients (23 acute myeloid homo- and heterozygosity, followed by the compu- leukaemia including eight follow-up, 3 acute lym- tation of a confidence score of all predicted alleles. phocytic leukaemia, 5 chronic myeloid leukaemia 162 163 112 | Immunomonitoring Predictive biomarkers for treatment success of the therapeutic renal cell cancer vaccine IMA901 1 1 2 2 1 Andrea Mahr , Jens Fritsche , Alexander Zien , Stephan Brock , Vlatka Stos-Zweifel , 1 1 1 1 1 Helen Hörzer , Phillip Müller , Regina Mendrzyk , Norbert Hilf , Steffen Walter , 1 1 Harpreet Singh-Jasuja , Toni Weinschenk 1 Immatics biotechnologies GmbH, Tübingen, Germany 2 Molecular Health GmbH, Heidelberg, Germany Therapeutic anti-cancer vaccines show the promise with an “elastic net” regularizer. Generalizability of combining meaningful clinical efficacy with low was evaluated by a leave-one-out cross-validation toxicity due to their cancer-specific mechanism of approach. To distinguish between predictive and action. However, the induction of immune respons- purely prognostic markers, a control arm is re- es and t heir translation into enhanced survival can quired. As the study arm receiving CY (+CY arm) be hampered by the compromised immune system performed better with respect to clinical efficacy observed in cancer, such that a fraction of patients and translation of T-cell responses into improved do not show benefit from vaccination. This study survival, markers were selected based on their se- aimed at identifying pre-treatment biomarkers pre- lective association with overall survival in the +CY dictive for the success of treatment with the multi- but not in the –CY arm. peptide based vaccine IMA901, which was designed The analysis yielded a set of 20 variables which was to induce specific T-cell responses against antigens predictive for overall survival after the combined found on renal cell carcinoma (RCC). treatment with IMA901 and CY. The predictive A phase II clinical study (study code IMA901-202) performance of the marker sets identified in the was conducted in 68 (64) intent-to-treat (per-pro- phase II study will be tested in an ongoing phase tocol) metastatic RCC patients. Patients were ran- III clinical study. New Targets & New Leads domized to two arms, receiving or not receiving a single dose of cyclophosphamide (CY) before vaccination. Univariate statistical analysis led to the identification of two biomarkers, apolipoprotein A-I and CCL17/TARC, which were combined in a score model predictive for overall survival and immune response to the vaccine (as published at the last CIMT Meeting). Here, results of the multivariate analysis are shown. More than 200 pre-treatment variables were analyzed for a possible association with overall survival by multivariate Cox regression. As there were many more variables than patients, careful modeling was required to avoid overfitting. Therefore, the Cox model was combined 164 165 113 | New Targets & New Leads 114 | New Targets & New Leads Regression of metastatic melanoma by targeting melanoma stem cells EpCAM-targeting antibodies for the treatment of a murine model of spontaneous gastric cancer 1 2 1 3 1 1 1 2 Patrick Schmidt , Max Schlaak, Andreas A. Hombach , Christopher Bangard, 2 2 2, 4 1, 4 Peter Kurschat, Paola Zigrino , Cornelia Mauch & Hinrich Abken Jonas Henkel , Julius Steffen , Simon Graßmann , Wolfgang Zimmermann , 1 1 1 Carole Bourquin , Stefan Endres and Sebastian Kobold 1 Tumorgenetics, Department I of Internal Medicine 1 2 Department of Dermatology and Venerology Division of Clinical Pharmacology, Center of Integrated Protein Science Munich (CIPS-M), Department of Medicine IV, Ludwig – Maximilians Universität, Munich, Germany 3 Institute for Radiological Diagnostics, University Hospital Cologne and CIO Cologne-Bonn 2 Tumor Immunology Laboratory, LIFE Center, Ludwig-Maximilians-Universität, Munich, Germany 4 Center for Molecular Medicine Cologne, University of Cologne, Germany Current paradigms in cancer therapy attempt to Background: The epithelial cell adhesion molecule Remarkably, survival in this therapy-resistant eliminate all malignanT-cells of a tumor lesion, the (EpCAM) is highly expressed in gastrointestinal model was prolonged by 11 days (p= 0.06). cancer stem cell (CSC) paradigm, however, predicts malignancies. There, EpCAM is suggested to be a Conclusions: EpCAM-targeting antibodies dem- that tumors are maintained by a few, so far less marker of cancer stem cells and to be involved in onstrate good cytotoxicity in an in vitro model of identified cancer stem cells. Here we demonstrate processes such as metastasis. These characteris- gastric cancer. First in vivo data indicate that our that specific elimination of a less than 2% subset tics render EpCAM a highly interesting target for antibody specifically targets cancer cells in a spon- of melanoma cells eradicates transplanted human antibody-based immunotherapies, since EpCAM is taneous model of gastric cancer which is known to melanoma biopsies in a mouse model without tar- additionally present on the cell surface. To this end be therapy-resistant. This data is of high relevance, geting the bulk of tumor cells. The melanoma cell new antibodies need to be identified and tested in as in vitro cytotoxicity as well as penetrance and subset is selectively and specifically eliminated appropriate preclinical methods. accumulation into a spontaneous tumor are man- from established tumor lesions by adoptive transfer Methods: We investigated two EpCAM-specific an- datory for further in vivo use. Our data suggest that of cytotoxic T-cells redirected by a chimeric antigen tibodies in a spontaneous model of gastric cancer, EpCAM represents an attractive target for the treat- receptor. Targeted elimination of the minority of the mouse ment of gastric cancer and that specific antibodies CD20 melanoma cells eradicated melanoma lesions (SV40) both in vitro and in vivo. Antibodies were may overcome local and systemic tumor resistance. in the long-term despite the non-targeted tumor cell characterized by Biacore-measurement. Expres- mass. Targeting of any random cancer cell subset sion of EpCAM was addressed by flow cytometry was not effective. Based on these pre-clinical data and immunofluorescence. we attempted to eliminate those cells in a patient Results: Antibodies with murine or rat backbone + CEA424-SV40-T antigen-transgenic with progressing, chemotherapy-refractory meta- had affinities for EpCAM in the nanomolar range static melanoma by lesional injections of the anti- and recognized recombinant and naturally pro- CD20 therapeutic antibody rituximab. Although cessed EpCAM protein. Both the primary tumor the frequencies of CD20 melanoma cells within + and a cell line established from the SV40-mouse the tumor lesions were initially about 2% and the expressed EpCAM at high levels (range 60 – 100% bulk of tumor cells did not express CD20, rituximab of all tumor cells). In vitro, both antibodies had treatment produced lasting remission accompanied cytotoxic activity through the classical way of com- by a decline of the melanoma serum marker S-100 plement (range 20 – 40% of cell lysis) and through to physiological levels. Apart from B cell elimina- antibody-mediated tion and decline in gammaglobulin levels, no grade (range 50 – 80% of cell lysis). When applied in vivo 3/4 toxicity related to treatment was observed. Data EpCAM-specific antibody was found evenly dis- + cell-dependent cytotoxicity provide the first clinical evidence of CD20 "mela- tributed in the EpCAM-positive tumor as well as noma sustaining cells" and highlight the potency in EpCAM-expressing tissues. Distribution of the of selective cancer cell targeting in the treatment antibody tightly correlated with the expression of of melanoma. EpCAM in the given tissue. Next, antibodies were applied in a therapeutic setting in the SV40-mice. 166 167 115 | New Targets & New Leads 116 | New Targets & New Leads Development of a novel modular cell targeting system for immunotherapy of acute myeloid leukemia HLA-restricted CD4+ T-cell epitopes derived from cancer-retina antigen PDE6 alpha as potential tools for T-cell based immunotherapy approaches 1 1 1 2 1 1 1 1 2 1 Claudia Arndt , Anja Feldmann , Marc Cartellieri , Malte von Bonin , Stefanie Koristka , 1 1 2 2 1 Irene Michalk , Slava Stamova , Martin Bornhäuser , Gerhard Ehninger , Michael Bachmann Maria Jęsiak , Wolfram Osen , Adriane Gardyan , Sabine Soltek , Elke Dickes , 2 1 Alexandr V. Bazhin , Stefan B. Eichmüller 1 Medical Faculty ‘Carl Gustav Carus’, Institute of Immunology, Fetscherstraße 74, 01307 Dresden, Germany 1 Division of Translational Immunology, DKFZ German Cancer Research Center, Im Neuenheimer Feld 280, 69120 Heidelberg, Germany 2 University Hospital ‘Carl Gustav Carus’, Medical Clinic and Polyclinic I, Fetscherstraße 74, 01307 Dresden, Germany 2 Department of General Surgery, University Hospital Heidelberg, 69120 Heidelberg, Germany 168 + Conventional tumor therapies often do not achieve systems. In vitro studies using CD33 the complete eradication of metastatic cancer cells. lines as well as patient-derived AML blasts clearly AML cell Thus, novel approaches are required to enhance demonstrate that T-cells can be specifically activat- the effects of standard treatment modalities. One ed for highly potent tumor cell lysis by both systems Melanoma originates from melanocytes and is a CD4 compelling immunotherapeutic strategy is based already in picomolar concentrations. Moreover, fast progressing tumor which is known to be highly Therefore, HLA-transgenic (tg) mice expressing on recombinant bispecific antibodies (bsAb). BsAb our data confirm that not only CD8 but also CD4 resistant to many therapies. Although it has been HLA-DRB1*0301 (DR3tg) were immunized with consist of the variable light and heavy chains of T-cells can be specifically recruited for the elimi- proven to be very immunogenic, the immune re- an expression plasmid (pcDNA3.1-PDE6a) encod- two mAb recognizing different antigens. Due to nation of malignanT-cells in a target-specific and sponse of the patients is often not able to fight back ing human (xenogenic) PDE6a, followed by ex vivo the simultaneous targeting of a tumor associated TCR-independent manner, even though the onset of and eliminate all tumor cells. analyses of the PDE6a-specific T-cell responses with a synthetic peptide library covering the + + + T-cell responses in melanoma patients. antigen (TAA) and the activating CD3-complex, killing via CD4 T-cells is delayed. The antitumor A number of various melanoma associated anti- bsAb are able to recruit effector T-cells specifically response of both Ab-based systems was further gens are well known. It has been recently shown entire PDE6a protein. Applying this strategy, two HLA-DRB1*0301 restricted epitopes were identi- + into tumor tissues. The bsAb-mediated cross-link- evaluated in vivo. Co-injection of CD33 tumor that a new class of tumor antigens, called cancer- age triggers a polyclonal T-cell activation that leads cells with T-cells in the presence of the bsAb or retina antigens (CRA), apart from being expressed fied and CD4 to an effective killing of the recognized targeT- the modular system in immunodeficient NSG mice in healthy retina (and participating there in the sponding epitopes were established. These murine cells. First clinical trials have proven the efficiency resulted in a significantly lower bone marrow chi- visual transduction pathway), can be expressed CD4 T-cell lines will be tested for recognition of of this approach for tumor treatment. merism compared to non-treated control animals. at the mRNA and protein levels in melanoma. human HLA-matched targeT-cells: firstly, when For redirection of T-cells to acute myeloid leuke- Taken together, our in vitro and in vivo data under- This aberrant expression of CRA is capable to loaded with antigenic peptide; and secondly, when mia (AML) blasts we established a novel human- line the high potential of both the direct cross-link- elicit humoral and cellular immune responses in expressing the target antigen endogenously. This ized bsAb targeting CD33 as a promising leukemia- ing bsAb CD33-CD3 and the novel modular system melanoma patients. Among these CRA, cGMP- strategy would prove that the epitopes identified in associated antigen. However, one major obstacle of as powerful tools for an antigen-specific immuno- phosphodiesterase 6 alpha (PDE6a) was found to HLAtg mice actually represented natural process- bsAb is their complex and time-consuming develop- therapy of AML patients. In particular, the modular be expressed in many melanoma cell lines as well ing products also in the human system. ment. Therefore, we additionally developed a flex- system provides a series of advantages compared as in tumor tissues of both, the human and murine Furthermore, the analysis of peripheral blood ible modular cell targeting system composed of two to classical bsAb. Applying the modular system to system. Therefore PDE6a could be considered as mononuclear cells from HLA-DR3 tumor patients different Ab components. The first component is a other malignancies only requires the exchange of a suitable target antigen for T-cell based immuno- for the presence of CD4 single-chain fragment variable (scFv)-based target- the targeting module while the effector module can therapy approaches against melanoma, and possi- same epitopes identified in HLA-transgenic mice is ing module that comprises a binding arm for the be maintained. The construction of new scFvs as bly against further tumor entities such as pancre- planned. These T-cells will be expanded and tested TAA CD33 and a short peptide epitope. The second novel targeting modules is far less time-consuming atic carcinoma where PDE6a expression was also for their reactivity against HLA-matched human component (effector module) is a bsAb with antigen than the development of new bsAb, which always detectable. melanoma cell lines in vitro. binding specificities for the CD3-complex on T-cells requires a series of individual optimization steps. The essential role of tumor antigen-specific CD4 and for the peptide epitope of the targeting module. Furthermore, by using a targeting module recog- T-cell responses for efficient tumor eradication has Together both molecules are able to form protein nizing two different antigens the modular system been demonstrated in various tumor models and complexes that act in a similar way as classical bsAb. offers the possibility of a multi-specific targeting in clinical settings. Thus, our aim was to identi- In the present work we compare the functional- which may improve target specificity and therefore fy novel CD4 T-cell epitopes that could be used ity and efficiency of both Ab-based cell targeting increase the success of an immunotherapy. for the induction and detection of tumor-reactive + + T-cell lines specific for the corre- + + + T-cells specific for the + + 169 117 | New Targets & New Leads 118 | New Targets & New Leads Targeting mutated and overexpressed tumor antigens in cancer immunotherapy Mutated BRAF and NRAS proteins as possible targets for the immunotherapy of melanoma 1 1 1 1 Sandra Höfflin , Beatrice Schuler-Thurner , Stefanie Gross , Gerold Schuler , Niels 1,* 1 * Schaft , and Jan Dörrie , Sabrina Prommersberger, Beatrice Schuler-Thurner, Stefanie Gross, Gerold Schuler, * * Niels Schaft , and Jan Dörrie * J.D. and N.S. share senior authorship Department of Dermatology, Universitätsklinikum Erlangen, Erlangen, Germany 1 Department of Dermatology, Universitätsklinikum Erlangen, Erlangen, Germany * Identifying new candidate antigens as potential targets mutated peptide pool (9 aa long), produced only low for cancer immunotherapy opens new chances for quantities of cytokines. Elispot analyses revealed an- tumor patients. Mutations in GNAQ and GNA11, which tigen-specific IFNγ-production by T-cells stimulated commonly occur in particular codons and emerge in a with PBMCs, which were transfected with the wild majority of uveal melanomas, could create such new type or mutated forms of the antigen, while co-cultiva- antigens, which emerge in a majority of uveal melano- tion with PBMCs loaded with a GNAQ-peptide-pool of The valine to glutamic acid mutation of BRAF at antigen-specific IFNγ-production by intracellular mas.. Other self-proteins, like the Wilms’ tumor (WT1) 9-mers could not induce specific cytokine production. codon 600 and the mutation of NRAS at codon 61 cytokine staining and Elispot assays. In these anal- protein, are overexpressed in many kinds of adult leu- Considering MFTC analyses of the GNA11 stimulations, both lead to a constitutive activation of the RAS- yses we stimulated the T-cells with electroporated kemia and solid tumors. an increase in the fraction of CD8 T-cells producing RAF-MEK-ERK-MAP kinase pathway. Both muta- DC, peripheral blood mononuclear cells (PBMC) We analyzed the mutation frequency of GNAQ and TNF and INFg was detected with antigen-specifically tions are frequently found in melanoma cells, since or non-adherent fraction cells (NAF). While most GNA11 (Q209P or Q209L) in melanoma cultures cells stimulated cells. As with GNAQ, no clear difference in they lead to the transduction of survival and pro- of the stimulations did not lead to any notewor- from patients and melanoma cell lines via PCR and the immunogenicity of wild type or mutated antigens liferation signals. thy IFNγ release, the T-cells of two donors showed subsequent sequencing. These mutations exclusively could be seen. CD8 T-cells, stimulated with mDCs that Based on the high frequency of these oncogenic high IFNγ releases after stimulation with BRAF or occurred in cells of uveal melanoma patients (1/2, and had been loaded with a GNA11-peptide pool of 9-mers, mutations in malignant melanoma (about 50% for BRAFV600E-presenting cells. 1/2, respectively), but could not be detected in other produced merely poor quantities of cytokines during BRAF and 20% for NRAS) and their exclusive oc- We also performed a similar experiment by using melanoma cell lines (0/21). stimulations. Elispot analyses of GNA11 stimulations currence in tumor cells, the mutated BRAF and NRAS, NRASQ61K and NRASQ61R RNA for elec- To investigate whether the mutated versions of the revealed inconclusive data. NRAS proteins may be a good target in the immu- troporation. After the second stimulation antigen- antigens GNAQ and GNA11 are more immunogenic Regarding WT1, the immunogenicity of WT1 was com- notherapy of this cancer. The aim of a therapy ad- specific IFNγ production was detected in some ex- + dressing these mutations would be the activation periments by intracellular staining. + + than their wild type forms, CD8 T-cells were stimu- + pared to a WT1-DCLamp construct. Therefore, CD8 + lated three times with autologous mature dendritic cells T-cells were stimulated three times with autologous of CD8 T-cells in the patient which are specific for Furthermore, we developed a simple and rapid (mDCs), which had been equipped with wild type or mDCs, which had been transfected with WT1 or WT1- the mutated forms of BRAF and / or NRAS. method to examine melanoma cell lines for the spe- mutated antigens by RNA-electroporation. Success- DCLamp. Successful transfection was demonstrated by Here we want to test whether there are CD8 T-cells cific BRAF and NRAS mutations. For that purpose, ful transfection of the mDCs was verified by intracel- intracellular FACS analyses. The antigen-specific activ- in the blood of healthy donors, which are able to we isolated RNA out of the cells, performed cDNA- lular FACS analyses. The antigen-specific activity of ity of the stimulated CD8 T-cells was then determined recognize and react specifically to BRAFV600E, synthesis and -amplification. This DNA was se- + + + the stimulated CD8 T-cells was determined by Multi by MFTC analyses, with antigen-loaded mDCs used as NRASQ61K or NRASQ61R-presenting dendritic quenced with particular primers attaching on both Functional T-cell Assay (MFTC), where antigen-loaded targeT-cells in short-time stimulations. Furthermore, cells (DC). We also want to investigate if the sides of the mutation site. Up to now, we found mDCs were used as targeT-cells for short-time stimula- IFNγ-Elispot was used to test the functionality of the mutated versions of these antigens are more im- that 10 out of 18 cell lines carry the BRAF stimulated CD8 T-cells, using antigen-loaded PBMCs munogenic than their wild-type versions. tation while 4 out of 15 cell lines are mutated in CD8 T-cells was tested by IFNγ-Elispot with antigen- as targets. MFTC analyses of the WT1 stimulations re- Therefore, we equipped mature DC with the wild NRAS at codon 61 (2x NRASQ61R, 1x NRASQ61L, loaded peripheral blood mononuclear cells (PBMCs) vealed an increase in the percentage of CD8 T-cells that type or the mutated BRAF antigen by RNA-elec- 1x NRASQ61K). In none of these cell lines we found used as targets. produced TNF and IFNγ, when the T-cells were stimu- troporation. Additionally, we transfected the DC both mutations at the same time - the mutation in lated by antigen-transfected mDCs. However, the first with constitutively active forms of IKKa and IKKb one of the genes usually excludes a mutation in the results do not assign a distinct form of the protein more for enhanced stimulatory capacity. Afterwards, au- other one. tions. Additionally, the functionality of the stimulated + MFTC analyses of the GNAQ stimulations revealed an + increase in the percentage of CD8 T-cells that pro- + + + V600E mu- duced TNF and IFNγ, when stimulated with antigen- immunogenic than the other. Corresponding results tologous CD8 T-cells were stimulated for one week The next steps will be to test further melanoma cell transfected mDCs. However, no statement could be were obtained by Elispot analyses. with the electroporated DC, and then re-stimulated cultures for mutations in NRAS in BRAF. In our made concerning the immunogenicity of the wild type Further stimulations will be performed with the anti- a second and a third time with the same stimula- stimulation experiments we have started to opti- gens under improved conditions and further cell lines tor cells. To analyze the expansion and function of mize the experimental and the readout conditions + compared to mutated versions of GNAQ. CD8 T-cells stimulated with mDCs, which were loaded with a 170 J.D. and N.S. share senior authorship will be analyzed for mutations in GNAQ and GNA11. + antigen-specific CD8 T-cells, we measured their to get more distinct results. 171 119 | New Targets & New Leads 120 | New Targets & New Leads Natural HLA ligands provide novel T-cell epitopes for immunotherapy of ovarian carcinoma Identification of new tumor specific HLA-Ligands – Separating tumor and stroma origin 1 2 1 3 1 1 1 2 3 3 Janet Peper , Helen Hörzer , Stefan Stevanovi , Richard Schäfer , Hans-Georg Rammensee 2 and Brigitte Gückel Heiko Schuster , Janet Peper , Philipp Wagner Jörg Hennenlotter Arnulf Stenzl 1 and Stefan Stevanović 1 Department of Immunology, Institute for Cell Biology, University of Tübingen, Germany 1 2 Department of Obstetrics and Gynecology, University Hospital Tübingen, Germany Department of Immunology, Institute for Cell Biology, University of Tübingen, Auf der Morgenstelle 15, 72076 Tübingen 3 Institute of Clinical and Exp. Transfusion Medicine, University Hospital Tübingen, Germany 2 Department of Obstetrics and Gynecology, University hospital Tübingen, Calwerstraße 7, 72076 Tübingen 3 Department of Urology, University hospital Tübingen, Hoppe-Seyler-Str 3, 72076 Tübingen 172 Late diagnosis and resistance to chemotherapy are overexpressed in OvCa and associated with poor Renal cell carcinoma and ovarian cancer are both to verify that this can also be seen directly on the the main reasons for the high mortality among prognosis. Several substances targeting HDACs characterized by poor prognosis and high mortality level of the HLA derived peptides we started again women suffering from ovarian carcinoma (OvCa). are already in clinical trials. In vitro priming of due to late diagnosis and high resistance to conven- from a bulk tissue derived single cell suspension New strategies to circumvent this drug resistance healthy PBMCs induced T-cell responses against tional chemo- and radiotherapy. Curative treatment but this time used MACS-technology to separate are urgently needed. One approach is to develop the HDAC1 peptide in eleven of twenty-one donors, for both cancers is often only possible through sur- tumor from stroma cells. As expected tumor cells immunotherapies, including peptide-based cancer as determined by positive intracellular stainings gical resection at an early non-metastatic stage. and surrounding stroma cells showed a completely vaccines which should induce tumor-specific for IFNγ, TNFα, IL-2, CD107a and MIP-1β. In ad- Looking for new and effective therapeutic options distinct pattern of HLA presented peptides. With T-cells. Several OvCa-associated antigens have dition, HDAC1-primed T-cells lysed peptide-loaded a lot of effort has been put into the development of this approach we have identified new tumor spe- + already been identified by expression profiling. as well as unloaded HLA-A*02 tumour cells in a specific immunotherapy, aiming at the in vivo in- cific MHC ligands derived from already established Further knowledge regarding MHC-presented pep- chromium release assays while HLA-A*02-negative duction of a tumor-directed immune response. Our cancer related antiges (e.g. TMPRSS3) and could tides derived from tumour-associated antigens is cells were not lysed. Additionally, this natural HLA group is especially interested in the identification of also reevaluate previously found peptides that were needed for triggering specific T-cell responses. ligand has been identified on three further OvCa, tumor specific MHC ligands that can be used for the formerly claimed to be tumor specific and are now The purpose of this study is to develop a multiva- four renal cell carcinomas, one breast cancer and development of a multivalent peptide vaccine tar- more likely to originate from the tumor stroma. lent peptide vaccine targeting OvCas. one prostate cancer sample. Moreover this peptide geting different tumor types. For several years we Up to now we have analysed MHC class I ligands of is also a natural HLA-A*02 ligand of HDAC2, allow- and other groups have relied on bulk tumor tissue seven OvCa samples. This was performed by liquid ing the simultaneously targeting of two different to perform HLA ligand extraction and analysis by chromatography coupled mass-spectrometry. Pep- HDACs associated with tumorigenesis. mass spectrometry. However information about the tides from established tumour-associated antigens According to our experimental data the novel T-cell amount of isolated MHC molecules directly derived (TAA) and peptides from proteins which might be epitope of HDAC1 and HDAC2 will be included in from tumor cells has not yet been obtained. involved in tumourigenesis or angiogenesis were peptide-based vaccination trials. In order to get a comprehensive view of the distri- selected for in vitro priming performed with PBMCs bution of MHC expression within tumor tissue we (peripheral blood mononuclear cells) from healthy used multi color flow cytometry to analyze the cel- blood donors. T-cells were isolated by magnetic lular composition and quantified the MHC expres- activated cell sorting and stimulated with peptide- sion of specific cell subsets. Single cell suspensions pulsed autologous dendritic cells and B cells. of fresh tissue samples were prepared by enzymatic Altogether we identified 1032 HLA ligands from digestion and stained with respective antibodies to seven different OvCa samples, whereas 22 of these distinguish between leukocytes, tumor cells, en- peptides were derived from TAAs. Up to know, in dothelial cells and fibroblasts. Our results show that vitro priming of these candidate peptides revealed MHC molecules expressed by tumor cells represent that eight peptides are immunogenic. only a small part of the overall MHC content. These The most promising epitope we found is an HLA- results emphasize the importance of using specific A*02:01 restricted peptide derived from HDAC1 cell subsets instead of bulk tissue for the identifica- (histone deacetylase 1), an established TAA highly tion of new tumor specific HLA ligands. In order 173 121 | New Targets & New Leads 122 | New Targets & New Leads HPV16 E6 and E7 T-cell epitope identification by mass spectrometry Identification of NPM-ALK-reactive T-cells in children with NPM-ALK-positive anaplastic large cell lymphoma (ALCL) 1 1 2 1 1 1 2 1 2 Renata Blatnik , Jan Winter , Uwe Warnken , Stephanie Hoppe , Agnieszka K. Grabowska , 3 1 3 2 1 Sebastian Link , Martin Wühl , Thomas Ruppert , Martina Schnölzer , Angelika B. Riemer Sebastian Werner , Vijay Singh , Christine Damm-Welk , Volker Lennerz , 1 1 2 Wilhelm Wössmann , Alfred Reiter , Thomas Wölfel 1 Immunotherapy and -prevention, German Cancer Research Center (DKFZ), Heidelberg, Germany 1 2 Functional Proteome Analysis, German Cancer Research Center (DKFZ), Heidelberg, Germany Department of Pediatric Hematology and Oncology, Justus-Liebig-University, Giessen, Germany 3 Core Facility for Mass Spectrometry and Proteomics, ZMBH, Heidelberg, Germany 2 III. Med. Klinik, University Medical Center of the Johannes Gutenberg University, Mainz, Germany To rationally design therapeutic cancer vaccines, 174 the presence of candidate epitopes was analyzed 2 3 + Background: ALK anaplastic large cell lymphoma assay on day 19. To assess both the antigen reactiv- it is important to know which T-cell epitopes are by nano-UPLC-ESI-MS and -MS mass spectrom- (ALCL) represents an ideal model to characterize the ity and the HLA restriction, responder T-cells were present on cancer cells. Malignant transformation etry. To this end, resulting spectra were compared mechanism of immune responses against tumor- tested for the recognition of COS-7 cells co-trans- affects the cellular antigen processing machinery, to reference spectra of synthetically produced pep- specific mutated antigens. ALCL is the third most fected with the respective donor´s individual HLA thus not every epitope derived from intracellular tides of interest. common Non-Hodgkin´s lymphoma in children and class I alleles and NPM-ALK cDNA. pp65 IVT-RNA proteins is necessarily presented by MHC mol- Binding of the majority of predicted peptides to the adolescents (1) and expresses tumor-specific onco- stimulations were performed in parallel as a posi- ecules on the cancer cell surface. respective HLA allele was verified in the cellular genic ALK-fusion proteins resulting from chromo- tive control in seropositive blood donors. Up to now, T-cell epitopes have mostly been defined assays. Several novel HPV16 MHC binders were somal translocations. The most common transloca- Results: In two out of three patients with NPM-ALK + + by indirect methods, such as screening peptide li- identified. Mass spectrometry analysis was estab- tion t(2;5) fuses the anaplastic lymphoma kinase ALCL NPM-ALK-reactive CD8 T-cells could be en- braries for MHC binders, and subsequent lympho- lished and validated with HLA-A2. To assess the gene (ALK) to the nucleophosmin gene (NPM) (2). riched and detected by mRNA stimulation in blood + cyte reactivity and cytotoxicity assays. However, minimal cell number required for MS analysis, a Patients with ALK ALCL can mount an antibody samples collected one to eight years after diagno- all these assays with externally added peptides series of immunoprecipitation (IP) samples were response against ALK. Anti-ALK antibody titers at sis. In both patients, recognition of NPM-ALK was + do not answer the question whether a candidate prepared from the HLA-A2 HPV16-transformed diagnosis inversely correlate with clinical stage, cir- restricted by HLA-C alleles. No NPM-ALK-reactive epitope is naturally processed and presented on cell line CaSki. For reliable detection of a low-abun- culating tumor cells and the cumulative incidence T-cells could be detected in three healthy controls. the malignanT-cell. This can now be elucidated 6 dance HPV epitope, 5x10 CaSki cells are required. of relapses (3), suggesting a role of the immune re- Conclusion: NPM-ALK-reactive CD8 T-cells were by using highly sensitive mass spectrometry ap- To perform HLA-A2 IPs of other HPV16-trans- sponse in tumor control. Using reverse immunology successfully expanded and detected in ALCL pa- + + + proaches. formed cell lines, the expression level of HLA-A2 approaches, CD8 as well as CD4 T-cell responses tients via mRNA stimulation. Using autologous For this study, we chose high-risk HPV-driven was determined in eleven HPV16-transformed cell against NPM-ALK-derived peptides, as predicted by FastDCs transfected with full-length IVT-mRNA as cancers as a model system, such as cervical or lines by FACS staining. InpuT-cell numbers for IPs binding score algorithms, were detected in both pa- antigen-presenting cells allows to comprehensively certain oropharyngeal carcinomas. The induction were adjusted relative to CaSki HLA-A2 expression tients and healthy individuals (4,5,6). These analy- exploit T-cell reactivity against NPM-ALK, because and maintenance of the malignant phenotype of levels. In all HLA-A2 HPV16 cell lines tested, the ses were limited to few HLA alleles and thereby did all potential peptide epitopes are included in the these tumors are dependent on two viral oncopro- HPV epitope E711-19 was found to be naturally pro- not cover the full immunogenicity of NPM-ALK. context of the complete individual HLA repertoire. teins, E6 and E7, which are therefore present in all cessed and presented on the cell surface, whereas Moreover, they did not proof endogenous process- In addition, this strategy guarantees that the identi- stages of HPV-driven cancers. We here aimed to other epitopes were not constantly present. ing of the respective peptides. To overcome these fied target epitopes are indeed processed and trans- assess the presence of HPV T-cell epitopes restrict- In conclusion, we show that ascertaining the actual limitations, we decided to use autologous dendritic ported to the cell surface. ed by four major MHC class I supertypes, namely cellular presentation of HPV T-cell epitopes is fea- cells transfected with in vitro-transcribed (IVT), Perspectives: NPM-ALK is a promising candidate HLA-A1, A2, B7, and B15, on HPV16-transformed sible. The finding that not every possible epitope full-length mRNA encoding NPM-ALK to identify target antigen for active and passive immune inter- cells. is necessarily presented highlights the importance NPM-ALK-specific T-cell responses. ventions complementing and consolidating standard Prospective epitopes from the HPV16 E6 and E7 of determining the presence of an epitope on the Methods: CD8 T-cells of patients with ALK ALCL chemotherapy of ALK ALCL. Findings and experi- proteins for the above MHC supertypes were iden- targeT-cell before initiating vaccine design. Verified and of healthy donors were stimulated under qua- ences with NPM-ALK can perhaps be extrapolated to tified by high-throughput in silico epitope predic- epitopes are also important for immunomonitoring si-limiting dilution conditions with autologous other cancers driven by ALK-fusion proteins. tions, employing several web-based prediction purposes. dendritic cells [FastDCs, (7)]. Prior to stimulation, + + + + algorithms. These peptides were tested for MHC FastDCs were transfected using the Amaxa Nu- binding in competition-based cellular binding cleofection system with IVT-mRNA encoding full- assays on B-LCL of the respective HLA type. Sub- length NPM-ALK. After two restimulations on day sequently, MHC-peptide complexes were immuno- 7 and 14 under similar culture conditions, T-cell precipitated from HPV16-transformed cells, and responses were analyzed with an IFN-γ ELISPOT + (1) Burkhardt et al. Br J Haematol 2005 Oct;131(1):39-49; (2) Brugières et al. J Clin Oncol. 2009 Feb 20;27(6):897-903; (3) Ait-Tahar et al. Blood. 2010 Apr 22;115(16):3314-9; (4) Passoni et al. Blood. 2002 Mar 15;99(6):2100-6; (5) Ait-Tahar et al. Int J Cancer. 2006 Feb 1;118(3):688-95; (6) Ait-Tahar et al. Cancer Res. 2007 Mar 1;67(5):1898-901; (7) Dauer et al. J Immunol Methods.2005 Jul; 302 (1-2): 145-55. 175 123 | New Targets & New Leads 124 | New Targets & New Leads Attenuation of Lethal Semliki Forest Virus Neurovirulence in Mice by Neuronal microRNA Targeting Siglec-7 and -9 on Natural killer cells and their ligands on tumor cells are novel inhibitory regulators of human NK cell functions in vitro and of tumor cell killing in vivo 1 2 1 Miika Martikainen , Erkko Ylösmäki , Ari Hinkkanen , Kalle Saksela 2 1 A. I. Virtanen Institute for Molecular Sciences, University of Eastern Finland, Kuopio, Finland 2 Haartman Institute, University of Helsinki, Helsinki, Finland MicroRNAs (miRNAs) are small non-coding RNA applications by specific miRNA targeting with po- molecules that have important regulatory roles in tential of concomitant detargeting from critical pe- gene expression by targeting mRNAs for cleavage ripheral tissues. or translational repression. The miRNA machinery has recently been successfully exploited to modify tropism of both RNA and DNA viruses to prevent viral replication in specific tissues. Acknowledgements: The study was supported by the Academy of Finland, the Cancer Center of Eastern Finland, and Kuopio University Hospital 1 2 1 1 1 Jandus Camilla , Chijioke Obinna , Wehrli Marc , Frias Boligan Kayluz , Liu He , Conus 1 3 1 4 Sébastien , Demoulins Thomas , Zangenmeister-Wittke Uwe , Stroka Deborah , 5 1 6 2 1 Hunger Robert , Simon Hans-Uwe , Romero Pedro , Münz Christian , von Gunten Stephan 1 Institute of Pharmacology, University of Bern, Bern, Switzerland 2 Department of Viral Immunobiology, Institute of Experimental Immunology, University of Zurich, Zurich, Switzerland 3 Institute of Virology and Immunoprophylaxis (IVI), Mittelhäusern, Switzerland 4 Visceral and Transplantion Surgery, Department of Clinical Research, University of Bern, Bern, Switzerland 5 Departement of Dermatology, University Hospital of Bern, Bern, Switzerland 6 Division of Clinical Onco-Immunology, Ludwig Center of Cancer Research of the University of Lausanne, Lausanne, Switzerland Replicative VA7 vector based on strain A7(74) of Semliki Forest virus (SFV) has emerged as a promising tool for oncolytic virotherapy particularly 176 for brain tumours. To further increase the vector Sialic-acid binding immunoglobulin-like lectins Little is known about the nature and the tissue safety additional measures to restrict viral replica- (Siglecs) are a recently described family of car- distribution of physiological Siglec ligands. Impor- tion in the CNS are needed. bohydrate-binding receptors involved in immune tantly, we identified physiological ligands for both We have generated miRNA-targeted SFV vectors regulation. In humans, Siglecs are predominantly Siglec-7 and Siglec-9 at variable, but significant by inserting target elements for neuron-specific expressed on hematopoietic cells, however, with a levels on a large number of human tumor cell lines miRNAs into the SFV genome. Results indicate that highly cell-type specific distribution for each Siglec from different histological types as well as in tissue neurovirulent SFV clone carrying target elements family member. sections from patients with malignant melanoma, for miR124 has significantly attenuated replication We report significant expression of Siglec-7 and but not in normal melanocytes. potency in the CNS of adult Balb/c mice while re- Siglec-9 on human cord and peripheral blood Altogether, our phenotypic and functional data taining oncolytic properties tested in vitro. natural killer (NK) cells. The large majority of suggest a possible role of Siglec-7 and Siglec-9 Intracranial infection of normal adult Balb/c mice human NK cells express high levels of Siglec-7; and their ligand(s) in the inhibition of anti-tumor with SFV4-miR122T virus carrying liver-specific in contrast, Siglec-9 is present on a subset of CD- immune responses. Knowing the importance of NK target resulted in lethal neurological symptoms in 56dimCD16pos NK cells, while it is absent on CD- cells in anti-tumor immunity, we believe that our ob- 100% of mice similar to WT SFV4. In mice infected 56brightCD16neg/dim NK cells. servations might translate in a near future into novel with neuronal miR124-targeted virus, a statisti- Interestingly, NK cells isolated from peripheral therapeutic strategies for treatment of malignancies. cally significant survival benefit over the SFV4- blood from patients with malignant melanoma and miR122 infected group was obtained. When infect- colon adenocarcinoma display significantly lower ed i.p. with SFV-miR124T, seven out of eight mice ex vivo Siglec-9 expression as compared to healthy remained asymptomatic or showed mild symptoms donors, arguing for a possible implication of Siglec- and only weak CNS spreading. Interestingly, i.c. 9 in modulation of anti-tumor immunity. administered SFV4-miR124T virus was found to Functionally, in vitro ligation of both Siglec-7 and infect preferentially the white matter tract of corpus Siglec-9 results in significant inhibition of NK cell callosum as reported recently for A774 intracranial cytotoxicity (e.g. targeT-cell killing, CD107a up- infection. Asymptomatic mice from SFV4-miR124T regulation) and engagement of Siglec-7 also sig- infected group were immune against lethal chal- nificantly decreases cytokine secretion (e.g. IFNγ). lenge with SFV strain L10. The results hold promise Remarkably, in vivo experiments in huNSG mice for development of safer alphaviral vectors for CNS confirm the in vitro functional findings. 177 125 | New Targets & New Leads 126 | New Targets & New Leads MELOE-1 contains multiple HLA class II T-cell epitopes eliciting Th1 responses in melanoma patients Identification of hematopoietic minor H antigens using leukemia reactive T-cells and genetic linkage analysis 1, 2, 3 1, 2, 3, 4 1, 2, 3 Mathilde Bobinet , Virginie Vignard , Anne Rogel 1, 2, 3, 4 1, 2, 3 1, 2, 3 Dreno , François Lang , Nathalie Labarriere 1, 2, 3, 4 , Amir Khammari , Brigitte 1 2 1 1 1 Boidinh Chung-Ueck , John Castle , Jana Albrecht , Michaela Frey , Ralf-Holger Voss , Eva 1 1 Distler , Wolfgang Herr 1 Inserm, U892, Nantes, F-44000, France 1 3 Department of Medicine, University Medical Center, Mainz, Germany 2 Univ Nantes, Nantes, F-44000, France 2 Institute of Translational Oncology (TRON) gGmbH, University Medical Center, Mainz, Germany 3 CNRS, UMR 6299, Nantes, F-44000, France 4 CHU Nantes, Nantes, F-44000, France MELOE-1 is a melanoma antigen encoded by a mes- ited CD4 responses against at least 1 out of 4 over- senger overexpressed in melanomas. We previously lapping peptides. Interestingly, the central region + identified a CD8 T-cell epitope from this antigen, 11-30 appears especially immunogenic, with CD4 MELOE-136-44, presented in the HLA-A*0201 context. specific responses detected in each tested donor. We reported a strong correlation between the infu- Responses against this central region are signifi- The success of an effective treatment of patients with EBV-transformed B lymphoblastoid cell lines sion of tumour infiltrating lymphocytes containing cantly more frequently detected than responses with leukemia by allogeneic hematopoietic stem (B-LCL), but not with fibroblasts of patient origin, MELOE-1 specific CD8 T-cells and relapse preven- against C-terminus and N-terminus regions, re- cell transplantation (allo-HSCT) depends on the suggesting that the target antigens may not be tion of stage III melanoma patients. Furthermore, a spectively occurring in 4/6 and 5/6 donors. On the graft-versus-leukemia (GvL) effect mainly mediat- broadly expressed mHag. We have analyzed the large T-cell repertoire against this epitope is present contrary, the region 18-37 seems poorly immuno- ed by donor T-cells. Unfortunately, this GvL effect recognition pattern of two CTL clones (2H9: HLA- in HLA-A*0201 healthy subjects and melanoma genic, both in terms of frequency and magnitude is frequently associated with broad alloreactivity B*07:02 restricted; 4B2: HLA-C*07:01 restricted) to patients. Our objective was to define the immuno- of specific responses. We confirmed these results of T cells to epithelial organs clinically known as a panel of previously genotyped B-LCL that express genicity of this new melanoma antigen, in terms of in a panel of melanoma patients, and documented graft-versus-host disease (GvHD). Furthermore, the HLA-B*07:02 and HLA-C*07:01, respectively, either class II epitopes, in order to design a therapeutic that MELOE-1 specific CD4 responses, occurring desired GvL effect can be sometimes too weak re- endogenously or after retroviral transduction. vaccine. We previously indentified two class II epi- in each patient, were Th1 responses, favourable to sulting in leukemia relapse after transplantation. B-LCLs originated from three large pedigrees from topes, in the vicinity of the HLA-A2 epitope, located the amplification of CD8 specific T-cells. In order We see a promising strategy to overcome these lim- the CEPH reference family collection of the Corielle in the C-terminus region of MELOE-1. This antigen to formally identify some of these new class II epit- itations by adoptive transfer of donor T-cells that Institute in New Jersey/USA (Pedigree 1332, 1362 being a small protein of 46 amino acids, the use of opes, we derived CD4 T-cell clones specific for each specifically recognize leukemia cells as targets. and 1413 with 50 individuals in total). Based on this whole polypeptide for vaccination would be region of the protein. These new epitopes are thus Minor histocompatibility antigens (mHag), which this recognition pattern for each CTL clone we have an interesting option, provided that additional and located in the N-term region (2-21), presented in the are polymorphic peptides presented by HLA mol- divided all 50 individuals into two different groups immunogenic epitopes could be identified all along HLA-DQβ1*0202 context, in the central region (11- ecules, play a crucial role as targets for GvL and being either mHag-positive or mHag-negative, re- MELOE-1 sequence. 30), presented by the DRβ1*1101 and the DRß1*0101 GvH reactive donor T-cells. Therefore the knowl- spectively. We currently perform genetic linkage Thus, in this study we evaluated the immunoge- molecules and in the C-term region (26-46), pre- edge of mHag with specific or at least preferential analysis using genotypes (microsatellites) of these nicity of MELOE-1 by stimulating healthy donors sented in the HLA-DQβ1*0201 context. expression in hematopoietic tissue would most individuals, which are online available at the CEPH and patients PBMC with 10 µM of MELOE-1 whole We showed that these new epitopes could be effi- likely allow to therapeutically induce selective GvL database, to identify linked regions and to narrow polypeptide, during 14 days. Microcultures were ciently presented to CD4 T-cells by dendritic cells responses in the absence of GvHD. down the region for the final gene identification then re-challenged with four 20-mer peptides (2-21, loaded with MELOE-1 whole protein, thus demon- For the molecular identification of human hema- 11-30, 18-37 and 26-46) corresponding to the four strating that these class II epitopes can be naturally topoiesis-specific mHag recognized by CD8 cyto- future immunotherapy trials are those mHag that overlapping regions of MELOE-1, followed by cyto- processed. toxic T lymphocyte (CTL) clones, genetic linkage are expressed specifically or at least preferentially kine labelling of CD4 T-cells. Thus, we could expect that vaccination of HLA-A2 analysis can be used. We have isolated leukemia- in the hematopoietic lineage. We first showed that stimulation of PBMC from melanoma patients with MELOE-1 whole polypep- reactive CTL clones by in vitro stimulation of naïve healthy subjects with MELOE-1 revealed CD4 re- tide would induce Th1 CD4 responses, stimulating CD8 T-cells from healthy individuals with fully sponses specific for the various regions of the protein the amplification of CD8 effector cells, reactive HLA class I-matched primary acute myeloid leuke- in multiple HLA contexts. Indeed, all donors exhib- against melanoma cells. mia (AML) blasts. Several CTL clones cross-react + + 178 rd + + coding the mHag peptides. Of particular interest for + 179 127 | New Targets & New Leads 128 | New Targets & New Leads Identification of unique colorectal cancer T-cell antigens by next generation sequencing of somatically mutated genes Identification of lung cancer associated oncoantigens as targets for active immunotherapy 1 2 1 3 1 Daniele Mennonna , Cristina Maccalli , Michele C. Romano , Renata Bordoni , Gianluca 3 4 4 5 1 De Bellis , Massimiliano Bissolati , Elena Orsenigo , Luca Albarello , Giulia Casorati , 2 1 Giorgio Parmiani , Paolo Dellabona 1 Experimental Immunology Unit, Division of Immunology, Transplantation and Infectious Diseases, San Raffaele Scientific Institute, 20132 Milan, Italy 2 Unit of Immuno-Biotherapy of Melanoma and Solid Tumors, San Raffaele Scientific Institute, Milano, Italy 3 Institute for Biomedical Technologies, National Research Council, Milano, Italy 4 Unit of Gastro-Enterological Surgery, Department of Oncology, San Raffaele Scientific Institute, Milano, Italy 5 Department of Pathology, San Raffaele Scientific Institute, Milano, Italy 180 1 1 1 Federica Riccardo , Elena Quaglino , Maddalena Arigoni , Elisabetta Ercole , Manuela 2 3 1 1 1 Iezzi , Dario Livio Longo , Guido Forni , Raffaele Calogero and Federica Cavallo 1 Department of Clinical and Biological Sciences, Molecular Biotechnology Center, University of Turin, 10126 Turin, Italy 2 Department of oncology and Neurosciences, G. d’Annunzio University, 66100 Chieti, Italy 3 Department of Chemistry IFM and Center for Molecular Imaging, University of Turin, 10126 Turin, Italy Immunotherapy is a promising strategy to selective- ated also paired CSCs. A pool of transcripts for Non small cell lung cancer (NSCLC) is the leading sponse class and green cluster was characterized ly attack cancer. The molecular definition of Tumor 20 CAN-genes (described by Wood et al., Science cause of cancer death in men and women. There- by the presence of 44 transcripts associated to in- Associated Antigens (TAAs) recognized by autolo- 2007) has been amplified and subjected to high fore, the development of new therapeutic strate- flammation disorder class, agreeing with the con- gous T-cells has been crucial to develop rationally throughput sequencing, confirming the presence gies is essential for improving the prognosis and solidated link existing between chronic immune designed clinical protocols. Vaccination strategies of several somatic mutations in a subset of these treatment of patients. An interesting experimental activation and tumorigenesis in human NSCLC. have concentrated up to now on the use the non- genes. Synthetic 15-mer peptides spanning the model to study human lung adenocarcinoma is rep- Among the genes found differentially expressed in mutated differentiation or cancer/testis Tumor As- mutated proteins encoded by every mutated gene resented by p53 mice. They develop mouse model and ranked to full-fill the minimal sociated Antigens (TAAs) as vaccines, because they expressed by each CRC cell line are being tested for aggressive NSCLC that metastasize to multiple requirement for an oncoantigen, CXCR1, SLC16A6, are conveniently shared by different cancers and/or their ability to elicit an in vitro immune response. sites and display a stepwise, directly age-related SLC26A9 and ROS1 were identified as potential patients. However, the clinical results obtained as Preliminary results obtained in one CRC sample progression, mimicking several features observed candidate for the building of anti-tumor vaccines yet with these TAAs showed only marginal clinical (CRC 1869) show that the frameshift mutation oc- in lung cancer patients. By using non-invasive mag- against NSCLC. On the basis of the literature and benefit. The possible reasons reside in the poor im- curring in APC generates a neo-epitope that is pre- netic resonance imaging (MRI), histopathological mouse data we consider ROS1 an interesting puta- munogenicity of self shared TAAs, due to the low af- sented by HLA-DR molecules in tumor cells and it and immunohistochemical analysis, lung cancer tive oncoantigen to be further investigated. More- + R172H∆g /Kras R172H∆g G12D finity T-cell recognition, together with their capacity is recognized by specific CD4 T-cells In addition, progression in p53 mice was charac- over, in order to identify novel fusion transcripts to trigger immune escape mechanisms counteract- peptides corresponding to the non-synonymous terized. A significant gender difference in tumor associated to NSCLC, potentially useful as diag- ing the anti-tumor effects induced by vaccination. point mutations in TP53 and SMAD4 elicit CD8 + progression was observed, with females developing nostic and therapeutic targets, RNA-Seq studies are Evidence from animal models and a limited number and CD4 T-cells that specifically react against the more tumors than males. Since, the identification now in progress. of patients suggest that unique TAAs, encoded by cancer cells expressing the mutated genes. Alto- of oncoantigens expressed during tumor develop- somatically mutated cancer genes, generate strong- gether, these preliminary results support the fea- ment could provide an unprecedented opportunity ly immunogenic epitopes that induce tumor control sibility of the approach to identify unique TAAs in to address the immune system against these mol- by the host’s immune system. We are using high- CRC by second generation massive sequencing and ecules, total RNA was extracted from lungs of 10, throughput DNA sequencing of somatic mutations reverse immunology. We expect that the substan- 20 and 30 week-old wild type (wt) and p53 + /Kras G12D R172H∆g G12D / mice. Transcription profiling was per- in colorectal cancer cells (CRC), and possibly also tial increase in the number of somatically mutated Kras in their Cancer Stem Cells (CSCs), to identify patient- proteins provided by the planned whole exome se- formed using Mouse Exon 1.0 ST arrays. 282 genes specific unique TAAs that can be potentially used in quencing will markedly increase the likelihood to were found significantly differentially expressed the clinics to elicit a strong and specific anti-tumor identify unique TAAs expressed by CRC cell and during the increment of the tumor mass. Interest- immune response. their CSC derivative in each patient. ingly, within the top biological functions detected We have established cells lines from 8 tumor by IPA, red cluster was characterized by the pres- specimens of CRC patients, two of which gener- ence of 10 transcripts related to inflammatory re181 129 | New Targets & New Leads 130 | New Targets & New Leads Designer host defense peptides for treatment of colorectal carcinoma Characterization of CD4+ T-cell responses specific for novel HLA-DR-restricted epitopes derived from the breast tumor antigen NY-BR-1 1 1 1 1 Claudia Maletzki , Ulrike Klier , Samuel Marinkovic , Jörg Andrä², Michael Linnebacher 1 Section of Molecular Oncology and Immunotherapy, University of Rostock ² Department of Biochemistry and Molecular Biology, University of Hamburg; Germany 1 1 2 2 1 Translational Immunology, German Cancer Research Center, Heidelberg, Germany 2 Dept. of Medical Oncology, National Center for Tumor Diseases, University Hospital, Heidelberg, Germany The emerging resistance towards standard che- positive control and an irrelevant peptide (NK11) Breast cancer resembles the most common malig- tigenic peptide, but also when expressing the target motherapeutic drugs makes identification and de- served as negative control. nant cancer type (26%) of women in the western antigen endogenously, showing that the epitopes velopment of new therapeutics imperative. Host CRC lines harboring high levels of PS were sub- world with a five year survival rate below 20% for identified in HLAtg mice were actually represent- defense peptides are antimicrobial peptides which stantially impacted by NK-2, even at low concen- patients with metastasized breast cancer types. ing naturally processed products in the human constitute effector molecules of the innate immune trations. These effects could be attributed to direct Therefore, innovative therapy strategies that would system. The frequencies of epitope specific CD4 system. Besides their capacity to act against micro- cytotoxicity, since viability as determined by allow efficient treatment of patients with advanced T-cells among PBMC of patients and healthy donors bia and fungi, they have surprisingly been found calcein-AM fluorescence, dramatically decreased breast cancer are urgently needed. Immunotherapy will now be determined and the specific reactiv- to exhibit broad antitumoral activity. The peptide following NK-2 exposure (IC50: 5 µM). Comparable approaches, in particular adoptive T-cell transfer, ity of these T-cells will be tested on human tumor NK-2, derived from the cationic core region of NK- effects were obtained for the positive control and, might represent an attractive strategy to achieve this cell lines. The use of NY-BR-1-specific CD4 T-cell lysin, is one of the most promising candidates. The of particular interest, the derivative 1, but not for goal. The differentiation antigen NY-BR-1 was found epitopes might open the possibility for the design tumor selectivity of NK-2 was found to be (at least in the derivative 2. Hence, specific tumor cell impair- to be expressed in breast tissue, testis, prostate, and of combined immunotherapy approaches based on part) due to differences in negatively charged mem- ment may be anticipated. Besides, CRC lines ex- most notably in 100% of tested breast cancers in situ. adoptive transfer of tumor antigen specific CD4 brane components, like phosphatidylserine (PS) in pressing lower levels of PS were also affected by NY-BR-1 can thus be considered as a suitable target T-cells sustaining the cytotoxic effector function of tumor targeT-cells. This is a very unique mode of the respective peptides. We therefore observed antigen for T-cell based immunotherapy approaches co-administered tumor antigen specific CD8 CTL. action, resulting in rapid cell membrane damage by only a minor correlation between PS-expression + against breast cancer. Tumor antigen-specific CD4 forming lesions and pores in cancer cells. There- and response rate to NK-2. However, the selectivity T-cell responses were shown to be essential for ef- fore, the aim of this study was to comprehensively of NK-2 towards tumor cells was verified, as we ficient tumor eradication in various tumor models analyze the cytolytic potential of NK-2 as well as did not detect any cytotoxic or hemolytic activity and in clinical settings. In this project , HLA-trans- derivatives thereof on patient-derived freshly estab- towards non-malignant lymphocytes and erythro- genic (tg) mouse strains expressing HLA-DRB1*0301 lished colorectal carcinoma (CRC) cell lines. cytes, respectively. (DR3tg) or HLA-DRB1*0401 (DR4tg) were im- Generally, freshly established CRC lines exhibited These promising data underline the high poten- munized with the NY-BR-1- encoding expression a heterogeneous expression profile of cell-surface tial of host defense peptides in general and NK-2 plasmid pcDNA3.1-NY-BR-1 followed by ex vivo PS. When comparing with non-malignant controls in special for oncolytic treatment strategies. Sub- analyses of the NY-BR-1-specific T-cell responses (B-cell lines, peripheral blood mononuclear cells), sequent studies will show whether resistance de- with a synthetic peptide library covering the entire all CRC cell lines had higher PS levels. However, velops after long term treatment schedules or if NY-BR-1 protein. Applying this strategy, a series of PS levels were lower in the primary cell lines than the tumor cells remain susceptible towards NK- HLA-DRB1*0301 and -DRB*0401 restricted epitopes standard CRC cells (average mean fluorescence in- 2-mediated cell lysis. This will provide the basis were identified and HLA-DR-restricted CD4 T-cell tensity: 20 vs. 40). for preclinical studies in xenopatients to determine lines specific for the new NY-BR-1-derived epitopes In subsequent functional analysis, we determined the effectiveness of host defense peptides against were established. These murine CD4 T-cell lines the impact of NK-2 and its derivatives on cell pro- solid cancers in vivo. will be analyzed for the recognition of human HLA- liferation and cytotoxicity. Melletin was used as a 182 1 Adriane Gardyan , Wolfram Osen , Maria Jesiak , Inka Zörnig , Dirk Jäger , 1 Stefan B. Eichmüller + + + + + + matched targeT-cells not only when loaded with an183 131 | New Targets & New Leads 132 | New Targets & New Leads Epitopes derived from the mutated region of Nucleophosmine 1 (NPM1) induce both CD4+ and CD8+ T-cell responses CD4+ T-cells Recognising Human B Lymphoma-Associated Antigens 1 1 1 1 1 1 Jochen Greiner , Yoko Ono , Susanne Hofmann , Vanessa Schneider , Anita Schmitt , 1 1 1 1 1 Lu Zhang , Elmar Mehring , Marlies Götz , Konstanze Döhner , Joannis Mytilineos , 2 1 1 Markus Wiesneth , Hartmut Döhner , Michael Schmitt 1 Department of Internal Medicine III, University of Ulm, Ulm, Germany 2 Institute for Transfusion Medicine, University of Ulm, and Institute for Clinical Transfusion Medicine and Immunogenetics GmbH, Ulm, Germany 1 1 School of Cancer Sciences, University of Birmingham, Birmingham, UK 2 School of Immunity and Infection, University of Birmingham, Birmingham, UK mutated protein showed specific T-cell responses Epstein-Barr virus (EBV)-specific T-cell prepara- one of the most frequent molecular alterations and in healthy volunteers and AML patients. In NPM1- tions, generated by stimulating immune donor predominantly occur in AML with normal cytoge- mutated AML patients 33% showed immune re- lymphocytes with the autologous virus-trans- netics. Patients with NPM1 mutation without FLT3- sponses of CD8 T-cells against peptide P3 and 42% formed B lymphoblastoid cell line (LCL) in vitro, ITD mutation show a favourable prognosis of their against peptide P#3. Specific lysis was detected in are successfully used to target EBV-positive ma- disease. The functional role of mutated NPM1 for chromium release assays NPM1 peptide-primed ef- lignancies. Whilst these preparations are enriched the improved clinical outcome is under evaluation. fector T-cells generated from NPM1-mutated AML for EBV antigen-specific CD8 Immune responses might be involved in the clinical patients. Tetramer assays showed peptide-specific + contain a CD4 T-cell population whose specificity outcome of the disease. In this work, we demon- T-cells. NPM1-peptide-A overlapping MHC class II is unknown. strate both CD4 and CD8 T-cell responses against epitopes were identified by primary structure anal- Here we show that stimulation of peripheral blood epitopes derived from the mutated region of NPM1. ysis program to analyze the role of CD4 T-cells. lymphocytes with autologous LCL activates not The entire amino acid sequences of the NPM1 wild Eight favourable overlapping peptides OL 1 - 8 only EBV-specific CD4 and CD8 T-cell memory, type protein as well as of the mutated cytoplas- were synthesized and exploited for CD4 mic NPM1 types A, B, C and D were screened for stimulation. In granzyme B ELISPOT assays, OL8 HLA-A*0201 binding T-cell epitopes using the al- co-pulsed NPM1-A CD8 T-cells indicated notable LCLs and not mitogen (CD40L/IL4)-activated B gorithms of the SYFPEITHI, the Rankpep and the S.I., in contrast other OL1-7 disabled to increase lymphoblasts, they can be isolated from the blood HLA-Bind software programs. Ten peptides with granzyme B secretion. To ensure that Th1 cytokine of EBV-naive as well as –immune donors and + the most favourable characteristics were subjected + + + T-cell + + + + + + but also a novel set of MHC class II-restricted CD4 effectors. Though these cells likewise recognise + appear to recognise not viral proteins, buT-cellular + antigens that are up-regulates in EBV-transformed secretion, under the condition of CD8 and CD4 T-cells mixed culture, resulted from NPM1-A CD8 in 22 healthy volunteers and 27 AML patients to test T-cells but not HLA-DR epitope stimulated CD4 + cells. Indeed, a range of EBV-negative B- and Tlymphoma cell lines with appropriate MHC class specific T-cell responses of CD8 T-cells. Tetramer T-cells, HLA-A2 blocking effect was confirmed in assays against the two most interesting epitopes ELISPOT assay. NPM1-A CD8 T-cells co-pulsed II types (and more recently at least one lympho- have been performed and chromium release assays with OL6, 7 and 8 showed lesser interferon-γ secre- ma biopsy tested ex vivo) are also recognised by have been used to show specific lysis by peptide- tion after HLA-A2 blocking antibody exposure as such ‘LCL-specific’ effectors, suggesting that these specific T-cells. Moreover, HLA-DR binding epi- 73, 35 and 57%. Of note, 83-94% of granzyme B same cellular antigens are frequently up-regulated topes were screened in algorithmic analysis and secretion levels were reduced by HLA-A2 blockade during the process of non-virally-mediated lympho- HLA-DR*0701 binding peptides were exploited to + stimulate CD4 T-cells. In the presence of overlap+ ping peptide stimulated CD4 T-cells, NPM1-A spe+ 2 T-cells, most also to ELISpot analysis for interferon-γ and granzyme B + 1 1 Mutations in the nucleophosmin 1 (NPM1) gene are + 184 1 Heather Long , Alison Leese , Nikki Smith , Wenbin Wei , Guy Pratt , Mark Drayson , 1 1 Martin Rowe , Alan Rickinson + + administration, and by which NPM1-A CD8 T-cells magenesis. Such antigens are therefore of potential seemed to be the most probable IFN-gamma and value as targets for CD4 + granzyme B producers and CD4 T-cells to interfere + + T-cell-based immuno- therapy. Their identity, means of presentation and cific CD8 T-cells revealed augmented interferon-γ with CD8 T-cells. range of expression in tumour targets are under and granzyme B secretion and up-regulation of in- Taken together, mutated NPM1 is a promising investigation. tracellular interferon-γ. target structure for specific immunotherapies in Two epitopes (P#1 and P#3) derived from the NPM1- AML patients. 185 133 | New Targets & New Leads 134 | New Targets & New Leads Novel tumor associated antigens for chronic lymphocytic leukemia The Quest for Novel Peptide Vaccines in Renal Cell Carcinoma: Mining the HLA-Ligandome 1, 2 2 2 2 Juliane S. Stickel , Daniel Johannes Kowalewski , Heiko Schuster , Claudia Berlin , Hans2 2 Georg Rammensee , Stefan Stevanovic Daniel Johannes Kowalewski, Armin Rabsteyn, Heiko Schuster, Hans-Georg Rammensee, Stefan Stevanović 1 University Medical Hospital, Department of Heamatology and Oncology, University of Tübingen, Germany University of Tübingen, Interfaculty Institute for Cell Biology, Department of Immunology 2 Interfaculty Institute for Cell Biology, Department of Immunology, University of Tübingen, Germany Chronic lymphocytic leukemia (CLL) is the most Additionally HLA quantification experiments on Renal cell carcinoma (RCC) is among the ten most cation of veritable tumor specific peptides. common incurable leukemia in western countries. the cell surface of CLL cells and autologous healthy common cancers in men in the US. With the esti- So far we were able to identify more than 7000 Although several novel treatment approaches have B cells were performed using a flow cytometric in- mated number of new cases exceeding 60.000 and peptides predominantly derived from self proteins been made in recent years mostly showing high direct immunofluorescence assay. more than 13.000 RCC-related deaths projected for with no apparent tumor association. Employing initial response rates, none of these approaches was The quantitative results show similar surface ex- 2012, RCC remains a disease with a dire prognosis. the strategies described above we could highlight able to extend overall survival. pression of HLA class I and II molecules on CLL Approximately 30 % of persons affected present 10 proteins represented by 25 different peptides Results of bone marrow transplantation as well as cells compared to autologous normal B lympho- with metastatic disease, which decreases the as being overrepresented in the HLA ligandomes remission phenomena after viral infections suggest cytes. 5-year survival rate to ten percent. This indicates of malignant tissues. Furthermore we eluted and that chronic lymphocytic leukemia might be tar- We were able to identify a total of more than 2500 an inadequate therapeutic situation which calls for identified novel peptide ligands from previously geted effectively by T-cell based immunotherapy. peptides from 8 CLL patients of all states of disease. novel/ additional treatment strategies. With RCC described RCC-associated antigens. For this goal the identification of tumor associated The majority of identified peptides are derived being an immunogenic tumor it is well suited for Potential TUMAPs were verified by LC/MS-based HLA (human leukocyte antigen) presented pep- from self proteins with no apparent leukemia asso- an immunotherapeutic approach. peptide sequencing of their synthetic counterparts tides, which are able to induce a tumor specific cy- ciation. However we identified several new ligands In order to develop an efficient peptide vaccine and are going to be checked for immunogenicity in totoxic T lymphocyte response, is indispensable. In derived from established leukemia-associated an- based immunotherapy of RCC we are directly future immunological assays. The long-term objec- comparison to other malignancies only few tumor tigens (e.g. Fibromodulin), from proteins showing analyzing the HLA-ligandomes of patient-derived tive is to implement TUMAPs holding up to these associated antigens for CLL are described. Thus the an overexpression on mRNA level in CLL (e.g. SET tissue samples by LC/MS-based peptide sequenc- tests in clinical trials with the aim to eventually aim of this study was to identify novel tumor as- proto-oncogene) as well as from new, potentially ing. The obtained data are mined for tumor as- establish them as off-the-shelf vaccines for the im- sociated antigens by the first direct isolation and CLL associated peptides (LEUMAPs) identified by sociated peptides (TUMAPs) employing various munotherapy of RCC. analysis of HLA class I ligands from the cell surface cross checking all the obtained peptide sequences strategies such as side by side comparison of the of CLL patients. with our internal peptide database for occurrence HLA-ligandomes derived from bulk tumor with the Peripheral blood mononuclear cells (PBMC) from on healthy tissues, especially B lymphocytes and ligandomes derived from autologous benign tissue. CLL patients were isolated, followed by magnetic PBMCs. The sequences of identified LEUMAPs Furthermore a comprehensive comparison of the cell separation for purification of the malignant were verified by LC/MS-based peptide sequencing combined ligandomes highlights proteins over- clone. HLA class I ligands were isolated using im- of their synthetic counterparts and will be tested represented in malignancy derived ligandomes. munoprecipitation. Liquid chromatography/mass for immunogenicity by immunological assays. This enables the identification of novel RCC associ- spectrometry (LC/MS) based peptide sequencing This study paves the way for the development of ated antigens solely based on the immunologically was used for the identification of HLA presented future peptide based immunotherapy of CLL by pivotal hallmark of HLA restricted presentation peptides. The obtained data were mined for leuke- confirming that there is no loss or downregulation while ostracizing formerly employed criteria such mia associated peptides by comparison of the HLA of HLA on CLL cells and by providing a number of as mRNA and protein expression levels. Finally, ligandomes of malignant CLL cells with the ligan- leukemia associated antigens, which for the first the data were mined for peptides derived from de- domes of PMBCs and B cells from healthy donors, time were directly obtained from the HLA ligan- scribed RCC associated mutations as comprised in investigation of gene expression databases and lit- domes of CLL patients. the COSMIC database (http://www.sanger.ac.uk/ erature research. 186 genetics/CGP/cosmic/), thus enabling the identifi187 135 | New Targets & New Leads 136 | New Targets & New Leads The HLA class I ligandome of prostate cancer: New targets for peptide-based immunotherapy Lymphoma specific immunity in healthy individuals and patients targets phosphorylated antigens derived from the cytoplasmic tail of CD19 1 1 1 1 1* 1* 1 1 1 Christian Hotz , Felix Dingler , Stefan Stevanović , Hans-Georg Rammensee , Arnulf 2 2 Stenzl , Jörg Hennenlotter Hugo De La Peña , Richard Buka , Thomas Butler , James E. Turner , Sarah Penny , Da1 1 2 1 vid George Millar , Oliver Goodyear , Guy Pratt , Mark Cobbold 1 University of Tübingen, Institute for Cell Biology, Department of Immunology 1 MRC Centre for Immune Regulation, University of Birmingham, Birmingham UK; Department of Urology, University Hospital Tübingen 2 Heart of England NHS Trust, Birmingham, United Kingdom 2 188 Prostate cancer (PrCa) is highly prevalent. It is the identified by HLA immunoprecipitation and sub- Haematological malignancies are unique in their Furthermore, incubation of circulating lympho- most common noncutanous cancer and second sequent peptide elution followed by high-perfor- susceptibility to curative immunological therapies cytes with autologous LCLs or HLA-matched leading cause of cancer deaths among men in the mance liquid chromatography-mass spectrometry such as stem cell transplantation, donor lymphocyte primary Chronic Lymphocytic Leukaemia (CLL) USA, with estimated 217,730 new cases and 32,050 (HPLC-MS) based peptide sequencing. The result- infusion and the manipulation of endogenous im- cells leads to proliferation and expansion of pCD19- deaths in 2011. The mortality rates for PrCa have ing peptides, respectively their source proteins, are munity through immunostimulatory cytokines. The specific T-cells yet incubation with normal, healthy been decreasing in many developed countries (e.g. subsequently screened for their potential tumor clinical utility of cellular immunotherapies provides B-cells does not. Moreover, these expanded T-cells USA, UK, Germany), which has been attributed to association. Further verification of the tumor-as- powerful and direct evidence that the human adap- are effective killers of both autologous LCLs and improved treatment and early diagnosis. Due to im- sociated peptides is achieved by comparing gene tive immune response is able to control and eradi- primary CLL cells. provements in detection of prostate specific antigen expression profiles from different tumor stages and cate tumours. However, the nature of the antigens In a mouse model of adoptive immunotherapy, we (PSA), prostate cancer is detected at an earlier and different tissues. By this approach we were able to which are targeted by these effective cellular immu- have demonstrated in vivo killing capacity of adop- clinically localized stage, in which curative treat- identify more than 1700 naturally processed HLA notherapeutic strategies remains largely undefined. tively transferred human pCD19 T-cells against ments could be performed with much better results. ligands from different HLA allotypes. Most pep- Cancer genome and epigenetic studies have revealed lymphoma cell lines after a single dose. The majority of patients diagnosed with localized tides derived from self proteins with no apparent the importance of signal-transduction pathway de- More recently we have assessed the functional an- PrCa are successfully treated with radical prosta- tumor association. Additionally we were able to regulation in the pathogenesis of cancer. Further- ti-pCD19 immunity in 17 patients with CLL. This tectomy or radiation therapy. However, most of the identify several known prostate-specific antigens more, therapeutic strategies targeting these have pCD19-specific immunity is highly heterogeneous patients will experience a biochemical relapse of as well as novel candidate tumor antigens. Our met with considerable success in the clinic provid- with some patients demonstrating absent immu- PSA, indicating a hidden local recurrence of the strategy to verify and validate the tumor-associated ing a powerful argument for aligning immunother- nity whilst others have large responses which far tumor burden. So there is a need for novel thera- peptides includes comparison by measurement of apeutic approaches to target signal transduction. exceed even viral responses. peutic approaches. Immunotherapy, which boosts synthetic peptides as well as in vitro cytototoxic The discovery that phosphorylation of serine and These data show, for the first time, that both the patient´s immune response to tumor antigens T-cell priming assays and finally the application threonine residues is preserved during MHC class-I healthy individuals and patients with CLL have (TA), represents a promising treatment option. In and the monitoring of immunogenic properties in and class-II antigen processing pathways suggests T-cells which exhibit cytotoxicity against primary order to develop an efficient peptide based immu- clinical trials. that phosphopeptide antigens derived from cancer- CLL cells through recognition of posttranslational- notherapy for PrCa, it is essential to identify HLA related phosphoproteins could serve as immuno- ly modified antigens. In healthy individuals, T-cell class I presented peptides characteristic for the logical signatures of ‚transformed self‘. responses directed against pCD19 may help to tumor which are able to elicit a specific cytotoxic Analysis of the peptides displayed on Epstein-Barr regulate pre-malignanT-cells, thereby revealing a T-cell response against the malignanT-cells. A pe- Virus (EBV)-transformed B-cells (LCLs) using a mechanism of cancer immunosurveillance. These culiar feature of PrCa are differentiation antigens mass spectrometry approach, reveals a phosphory- data increase our understanding of mechanisms like prostate specific antigen (PSA) or prostatic acid lated peptide antigen derived from the cytoplasmic within the adaptive immune response to targeT- phosphatase (PAP), since the prostate is a nones- tail of CD19 (pCD19). cells with underlying deregulated signaling and sential organ these tissue antigens represent good Here, we show that CD4 and CD8 pCD19-specific validate the potential of these phosphopeptides as targets for immunotherapy of prostate cancer. MHC T-cells, can be isolated from the peripheral blood immunotherapeutic targets. ligands from primary prostate cancer tissue are of HLA-DRβ1*0101 , HLA-A*0201 healthy donors. + + + + 189 137 | New Targets & New Leads 138 | New Targets & New Leads Frequently recognized MHC class II epitopes for an easy generation and detection of EBV specific CD4+ T-cells High throughput in vitro priming of tumor specific T-cells 1 1 2 1 Christina Kyzirakos , Thomas Feger , Klaus Hamprecht , Hans-Georg Rammensee , Stefan 1 Stevanović 1 Institute of Immunology, University Tübingen, Auf der Morgenstelle, Tübingen, Germany 2 Institute of Medical Virology and Epidemiology of Viral Diseases, University Hospital, Tübingen, Germany Stefanie Souczek, Lea Prokop, Kerstin Artzner, Hans-Georg Rammensee, Stefan Stevanović Department of Immunology, Interfaculty Institute for Cell Biology, University of Tübingen, Tübingen, Germany + Epstein-Barr Virus (EBV) persists in the vast ma- flow cytometry. CD4 T-cell clones specific for five Peptide-based cancer vaccines are one promising jority of adult individuals (>90%) as a lifelong epitopes were generated. 24 of the tested peptides strategy for immunotherapy against cancer. Our latent infection of the host’s B-lymphocyte pool. could be identified as MHC class II epitopes by flow group has characterized large numbers of HLA Although chronic infections remain asymptomatic cytometry. A promising mix consisting of five epit- ligands from tumor cells; among them many that in most cases, immunocompromised patients can opes from four different antigens elicited responses might be used for in vivo induction of tumor-specif- suffer from severe and life-threatening EBV-associ- in over 90% of tested donors. A multifunctional ic immune responses. For the development of pep- ated diseases, such as post-transplant lymphopro- CD4 T-cell response could be measured after in + + T-cell tide-based immunotherapies such peptides should liferative disorders (PTLD). In immunocompetent vitro culture with the peptide mix. CD4 individuals the outgrowth of EBV-transformed B clones specific for four of the five epitopes were able responses, especially by CD8 cells is successfully controlled by T-cells. Thus, to recognize autologous EBV infected cells. a key role in inducing death of tumor cells. The be able to induce in vivo tumor-directed immune + T-cells that have immunotherapeutic strategies using adoptively aim of our work is to establish a fast and efficient transferred EBV-specific T-cells are promising. One workflow to induce tumor-reactive T-cells which + option is the generation and expansion of CD4 and + is based on immunogenicity testing of tumor-ex- T lymphocytes by using EBV-specific syn- tracted HLA ligands. T-cells usually depend on pro- thetic peptides for the stimulation of pre-existing fessional antigen presenting cells (APCs) such as memory T-cells. Aim of this study was to identify a autologous dendritic cells (DCs) for specific induc- set of MHC class II peptides which are recognized tion and expansion. Since the generation of den- CD8 + by specific CD4 T helper cells of basically every dritic cells is expensive and time consuming with individual. varying quality and amount of differentiated DCs, 15 amino acid long candidate epitopes of nine im- we established an artificial system to replace cell- munodominant antigens, three of the latent cycle based in vitro priming of T-cells: Streptavidin-coat- (EBNA3A, LMP1 and LMP2) and six of the lytic ed artificial antigen presenting cells loaded with cycle (BMLF1, BMRF1, BRLF1, BZLF1, BNRF1 and defined amounts of recombinant HLA molecules BLLF1) of the virus were predicted using the SY- and costimulatory antibodies such as anti-CD28 FPEITHI epitope prediction programme (www. and anti-CD137 (4-1BB). Employing artificial APCs syfpeithi.de). For each antigen promiscuous pep- without the need for autologous DCs will lead to tides with high SYFPEITHI scores were screened successful in vitro priming of tumor-reactive T-cells for immunogenicity using IFN-γ-ELISPOT. Each that might provide an indication for novel peptides candidate epitope was tested on PBMCs of at least for immunotherapy. 15 healthy blood donors after in vitro amplification of specific T-cells. Epitopes were confirmed by 190 191 139 | New Targets & New Leads 140 | New Targets & New Leads Identification of a tumour-associated autoantibody signature with high diagnostic value for early detection of gastric cancer Spontaneous humoral antibody responses against tumor- associated antigens in malignant melanoma patients 1 1 2 1 1 1* 1* 2 1 1 Karina Silina , Pavel Zayakin , Guntis Ancans , Zane Kalnina , Irena Meistere , 1 1 1 2 1 Angelina Pismennaya , Diana Andrejeva , Lasma Ivanova , Marcis Leja , Aija Line Inka Zörnig , Niels Halama , Justo Lorenzo Bermejo , Alexander Migdoll , Claudia Ziegelmeier , 1 3 1 4 3* 1*§ Iris Kaiser , Elke Dickes , Niels Grabe , Christine Falk , Stefan B. Eichmüller and Dirk Jäger 1 Latvian Biomedical Research and Study Centre, Riga, Latvia 1 2 Riga Eastern Clinical University hospital, Latvian Oncology Center; University of Latvia, Faculty of Medicine, Riga , Latvia National Center for Tumor Diseases, Dept. of Medical Oncology, University Medical Center Heidelberg, Heidelberg, Germany 2 Institute of Medical Biometry and Informatics, University Medical Center Heidelberg and Division of Molecular Genetic Epidemiology, German Cancer Research Center, Heidelberg, Germany 3 Translational Immunology, German Cancer Research Center, Heidelberg, Germany 4 Immunomonitoring Unit, National Center for Tumor Diseases and Institute for Immunology, Heidelberg and Integrated Research and Treatment Center Transplantation, Hannover Medical School, Hannover, Germany * contributed equally § corresponding author: [email protected] Introduction: The lack of reliable markers for the prising serum samples from 235 GC patients, 154 early diagnosis of gastric cancer is a major draw- peptic ulcer and gastritis patients and 213 healthy back in managing this disease. Tumour-associated controls to identify autoantibodies with the highest autoantibodies are considered to be attractive bio- diagnostic value. markers for such purposes due to their specificity Results: ROC curve analysis showed that a minimal and stability in sera, however no antibody-based set of 45 autoantibodies could discriminate GC and test has been developed so far as each individual healthy controls of the validation set with an AUC tumour differs in its antigen repertoire and the of 0.79 (59% sensitivity and 90% specificity), GC frequency of autoantibodies against each single and peptic ulcer with AUC of 0.76, and GC and gas- antigen is too low (<20%). tritis with AUC of 0.64. Moreover, it could detect Methods: We tried to overcome these obstacles by early GC with equal sensitivity than advanced GC. (i) applying T7 phage display-based SEREX tech- Interestingly, the autoantibody production (serum nique for the identification of a representative set score) did not correlate with histological type, H. of antigens eliciting humoral responses in gastric pylori status, grade, localization and size of the cancer (GC) patients, by (ii) producing a 1150- primary tumour while it appeared to be associated feature phage displayed antigen microarrays and with the metastatic disease. exploiting them for the survey of the autoantibody Conclusions: The identified 45 tumour-associated repertoire in 100 GC patients of various stages and autoantibody signature can detect gastric cancer 100 cancer-free controls, and by (iii) developing with a higher specificity than any other known specific procedures for antigen microarray data nor- marker and can be used for the detection of even malization and cut-off determination of sero-posi- early stage gastric cancer with equal precision. tive signals. Each antigen received a rating value according to the reactive antibody signal intensity and frequency of reactivity in cancer patients and healthy donors. Then each serum acquired a value – the serum score – by summing the ranked signals of each reactive antigen in that serum, and this value was used for the statistical analyses of the autoantibody test. Next, the top-ranked 86 antigens were used for the production of a focused array that was tested with an independent validation set com192 Running title: Humoral antibody responses against responses in all disease stages. Humoral immune tumor-associated antigens responses against single antigens were either as- Purpose: Spontaneous humoral (auto-) immune sociated with poor prognosis and/or shorter pro- responses in melanoma patients have been previ- gression-free survival (PFS) or had no influence. ously described. However, the distribution, pat- Among stage IV patients, no significant associa- terns and prognostic impact of antibody responses tion between the presence of an antibody response against specific candidate tumor-associated anti- and overall survival or PFS was found, whereas in gens (TAAs) are unknown so far and were inves- stages I-III significant associations were observed. tigated in this study for the first time. The final Multivariate analyses identified specific antigen re- aim was to identify new prognostic biomarkers for sponses as prognostic factors independently of age, malignant melanoma. chemotherapy and immunotherapy. Patients and Methods: Two sets of serum samples Conclusion: Antibody responses against specific from 465 melanoma patients and healthy controls TAAs in stage I-III melanoma patients correlate were investigated. 97 patients with stage I mela- with poor prognosis and/or shorter PFS. Present noma, 87 with stage II, 92 with stage III, 89 with results may help to design clinical studies in order stage IV and 100 healthy controls were analyzed. to evaluate the potential of these responses as Samples were drawn at the time of diagnosis (stage prognostic serological biomarkers. The humoral I-III) or at the time of diagnosis of distant metasta- immune response appears to have detrimental sis (stage IV). Antibody responses against 26 candi- effects on the clinical course of the disease. date TAAs were determined using a novel multiplex assay and the association between response and patient survival was investigated. Results: Antibody responses were heterogeneous and were mainly found in melanoma patients regarding both frequency and magnitude across different stages. All antigens tested elicited immune 193 141 | New Targets & New Leads 142 | New Targets & New Leads A peptide microarray platform with a new robust data analysis package Human chorionic gonadotropin exerts immunosuppressive effects in a mouse model of Graft-versus-Host disease 1 2 1 3 1 Martin Löwer , Bernhard Y Renard , Yvonne Kühne , Ulf Reimer , Andrée Rothermel , 3 3 3 1 1 Johannes Zerweck , Tobias Knaute , Holger Wenschuh , Özlem Türeci , John Castle , and 1 Ugur Sahin 1 The Institute for Translational Oncology and Immunology (TrOn), 55131 Mainz, Germany. 2 Research Group Bioinformatics (NG 4), Robert Koch-Institute, 13353 Berlin, Germany. 3 JPT Peptide Technologies GmbH, 12489 Berlin, Germany. Microarrays are versatile tools for answering a and compared to two existing algorithms. rapmad plethora of biological questions. DNA microarrays shows competitive and superior behaviour. even made their way into clinical diagnostics with The combination of a flexible peptide array platform a number of FDA-approved in vitro diagnostic tests. with our novel and robust data analysis package The technological development in the field of DNA- provides an efficient technology for using in differ- microarrays fertilized other areas as peptide mi- ent emerging „omics“ as interactomics, kinomics or croarrays. acetylomics as well as biomarker discovery. Peptide Microarrays have been proved useful in many applications as enzymatic profiling, for instance of histone modifying enzymes, e.g. kinases and deacetylases, or the screening of humoral immune response towards pathogens or autoantigens. Here, we present a peptide microarray platform for the screening of numerous samples on high content peptide microarrays and a subsequent robust data evaluation pipline. Based on a high-throughput peptide synthesis platform, complex peptide libraries are generated and chemoselectively immobilized onto microarrays in a density up to 7000 peptides in triplicates. To achieve a maximum sensitivity we developed data analysis procedures which are implemented in the R package rapmad (Robust Alignment of Peptide MicroArray Data). The analysis pipeline was evaluated with data from patient samples on high density peptide arrays 194 Caroline Steinmetz, Steffen Lorenz, Peter Galle, Dennis Strand, Susanne Strand I Department of Internal Medicine, University Medical Center, 55101 Mainz, Germany During pregnancy an immune tolerant micromi- analysis showed increased phosphorylation of Sirt1 lieu prevents rejection of the alloantigenic embryo. in the liver of mice treated with hCG. Quantitative Human chorionic gonadotropin (hCG) may play a Real Time PCR- and Western Blot analysis revealed role in helping to establish this situation. Never- a clear decrease in Bim expression. theless, the immune response against pathogens is Based on the immunosuppressive activity of hCG, maintained. Mimicking this immunological state it might be a new therapeutic agent for the treat- might be a desirable strategy to prevent the compli- ment of GvHD. cations of Graft-versus-Host disease (GvHD) after stem cell transplantation. Using a murine autoimmune hepatitis model we could show that hCG prevents T-cell mediated liver damage. The analysis of the signaling pathways revealed that hCG regulates the longevity protein Sirt1, which results in an inhibition of the forkhead transcription factor Foxo3a. This led in turn to a downregulation of its proapoptotic target gene Bim. In a GvHD mouse model we report that hCG leads to a significant reduction of liver damage, indicated by lowered transaminase values. Furthermore we performed immuno-stainings for + CD4 T-cells in liver and skin sections and found less infiltration in the hCG-treated mice. This could be an effect of the attenuated release of IL-16, a + chemoattractant factor for CD4 T-cells. Immunostaining of Sirt1 revealed an upregulation of Sirt1 in the nucleus after hCG treatment. Also Western Blot 195 143 | New Targets & New Leads Expression and impact of interleukin-22 in human lung cancer 1 1 2 2 Stefanie Völk , Natascha Jennifer Küpper , Till Clauditz , Sarah Minner , Amanda 3 4 5 5 1 1 Tufman , Peter Düwell , Michael Lindner , Ina Koch , Melanie Merk , Simon Rothenfußer , 4 3 2 2 1 Max Schnurr , Rudolph Maria Huber , Guido Sauter , Waldemar Wilczak , Stefan Endres 1 and Sebastian Kobold 1 Division of Clinical Pharmacology, Department of Internal Medicine IV, Ludwig-Maximilians Universität München, Munich, Germany 2 Institute for Pathology, University Medical Center Hamburg-Eppendorf, Hamburg, Germany 3 Department of Internal Medicine V, Ludwig-Maximilians Universität München, Munich, Germany 4 Department of Internal Medicine IV, Ludwig-Maximilians Universität München, Munich, Germany 5 Asklepios Biobank für Lungenerkrankungen, Asklepios Fachklinik München-Gauting, Gauting, Germany Interleukin-22 (IL-22) is an interleukin-10-related dependent proliferation and cell anabolism but had cytokine with unique functions in interleukin- no effect on the migration of these lung cancer cell 22-receptor-1 (IL-22-R1) expressing epithelial cells. lines. Using annexin V-propidium iodide staining Recently, it has been suggested that IL-22 may be and cell titer blue assays (vitality), we found no an autocrine factor in lung cancer. However, the rescue from chemotherapy (carboplatin and 5-fluo- prevalence of this cytokine and its role in the pro- rouracil) by IL-22 treatment. In contrast, when cells motion of human lung cancer are not known. (A549, HCC827) were continuously exposed to cis- We fi rst screened two cohorts of 205 and 2145 lung platin until they grew drug-resistant to this drug, cancer samples for IL-22 expression by immuno- we found a striking upregulation of the IL-22-R1 histochemistry on a tissue microarray. IL-22 was both on protein and mRNA level. IL-22 stimulated detected most frequently in small cell lung cancer cisplatin-resistanT-cells exhibited higher prolifera- (n = 50) and large cell lung cancer (n = 303) with tion rates and higher bcl2 expression than the non- 58 and 46 % respectively. The remaining histo- resistant controls. logical types (squamous cell, adenocarcinoma and Our data suggest that IL-22 expression in tumor invasive adenocarcinoma with predominant leptic tissue may not be a prognostic factor in resectable growth) were significantly less positive for IL-22 lung cancer at the time of diagnosis. In contrast, (28, 33 and 24 % respectively). IL-22 expression did our results indicate that in chemotherapy-resistant not correlate with survival time in any of these sub- tumor cells, upregulation of IL-22-R-1 and of IL- types. Next, we addressed why, despite the expres- 22-responsiveness may contribute to more aggres- sion of IL-22 as a putative protumoral factor, the sive behavior of the disease. Therapeutic Vaccination course of the disease seems unaltered. We analyzed the effects of IL-22 in five human lung cancer cell lines (A549, HCC827, H1339, H187 and LOU-NH91). Expression of IL-22-R1 was determined by Western blot and quantitative-PCR. IL-22-R1 was expressed in all analyzed cell lines but the expression level differed between the cell lines. Elevated levels of IL-22-R1 were associated with a high response rate to respond to IL-22 treatment. IL-22 induced STAT3196 197 144 | Therapeutic Vaccination 145 | Therapeutic Vaccination Tumor cells infected by Measles virus vaccine induce plasmacytoid dendritic cell (pDC) maturation and tumor antigen cross-presentation Use of Oncolytic Rhabdoviruses as Potent Tumour Vaccine Boosters * Jean-Baptiste Guillerme, Nicolas Boisgerault, David Roulois, TANGY Frédéric Tangy , Jean-François Fonteneau and Marc Gregoire 1 2 1 3 1 McMaster Immunology Research Centre, McMaster University, Hamilton, ON, Canada INSERM U892 – Centre de Recherche en Cancérologie Nantes-Angers (CRCNA), Nantes, France 2 Department of Pathobiology, University of Guelph, Guelph, ON, Canada * 3 Children’s Hospital of Eastern Ontario, Ottawa, ON, Canada Institut Pasteur PARIS – Unité Génomique virale et Vaccination. Plasmacytoid Dendritic Cells (pDC) are antigen- amount of type I IFN and cross-present tumor Oncolytic viruses are able to mediate tumour de- alterations to the tumor microenvironment leading presenting cells specialized in antiviral response. antigen. struction in many animal models and some human to large increases in tumour antigen-specific TILs. patients but the effects of the viruses are generally Remarkably these boosting vectors generate larger quite transient as host immunity ultimately limits T-cell responses in tumour-bearing hosts than they viral delivery and spread. However host immunity can in tumour-free hosts as they replicate in tumour healthy cells. We have previously demonstrated can also be beneficial in this context if recruited cells thus amplifying their boosting capacity. that myeloid dendritic cells (DC), cocultured with to attack the tumour during, and importantly fol- Oncolytic rhabdoviral vectors are extremely potent MV-infected tumor cells, actively matured and lowing therapy. If one could turn the transient vaccine boosters when administered intravenously cross-presented tumor antigen. Here, we inves- benefits of viral oncolysis into an ongoing thera- allowing for systemic delivery to antigen presenting tigated the effects of MV-tumor-infected cells on peutic effect by inducing a potent anti-tumoural cells and tumour beds. These viruses can generate phenotype and functions of pDC. immune response the dual effects of viral oncoly- very large immune responses against both foreign We compared maturation, cytokine production and sis plus anti-tumoural immunity may prove highly and autologous antigens and are able to do so even tumor-antigen cross-presentation by pDC, exposed beneficial. Unfortunately, the immunogenic nature during the peak of the primary response allowing either to the virus alone, to MV-infected or UV-ir- of oncolytic viruses means that host immune re- for rapid generation of potent immune responses radiated tumor cells. sponses against viral antigens dominate induced capable of destroying significant tumour burden in We found that MV alone or MV-infected cells responses against bona fide tumour antigens. Thus aggressive syngeneic tumour models. induced pDC maturation with a strong IFN-α pro- novel approaches able to enhance antitumor im- Our team is developing a novel rhabdoviral platform duction, whereas UV-irradiated tumor cells did not. munity during oncolytic therapy may prove highly based on the Maraba virus. This virus shows ex- We demonstrate that type I IFN secretion is due to beneficial. cellent oncolytic properties in pre-clinical tumour TLR-7 triggering. We also observed that MV-infect- We have developed recombinant oncolytic vaccines models and is a very strong booster of tumour vac- ed cells were taken up by pDC. Interestingly, we where we incorporate tumour antigen transgenes cines. We are currently preparing for a first in man observed cross-presentation of the tumor antigen, The measles virus vaccine (MV) was recently proposed in virotherapy as an antitumor agent to target and specifically kill tumor cells without infecting This work was supported by INSERM, «Association pour la Recherche contre le Cancer» (ARC) and «Ligue contre le cancer inter-région du grand ouest». into oncolytic viruses to direct the host immune phase I clinical trial using an MG1 Maraba-MAGE NYESO-1, to a specific CD8 T-cell clone only when response toward tumor antigens. In this manner A3 oncolytic vaccine vector. We will present pre- pDC were cocultured with MV-infected tumor cells. we use the oncolytic virus to drive a specific anti- clinical data from murine tumour model studies as To our knowledge, we presently demonstrate for tumoural immune response while performing viral well as vaccine response and toxicity data from our the first time the property of tumor antigen cross oncolysis. In particular, when used in tumor-bear- ongoing non-human primate trials. presentation by human pDC. ing pre-vaccinated hosts, these oncolytic vaccines Altogether, our results suggest that the use of MV provide a powerful boost to pre-existing anti-tu- as an antitumor virotherapy induce immunogenic mour immunity, while maintaining the benefits of tumor cell death, allowing pDC to produce large an oncolytic virus in terms of tumor debulking and + 198 1 Jonathan Pol , Byram W. Bridle Yonghong Wan , David F. Stojdl and Brian D. Lichty 199 146 | Therapeutic Vaccination 147 | Therapeutic Vaccination HLA-A*0201+ plasmacytoid dendritic cells provide a cell-based immunotherapy for melanoma patients Intravaginal immunostimulation after vaccination increase local vaccine-specific CD8 T-cells and tumor regression of genital tumors in mice 1, 2 2, 3 2, 4 1, 2 1 1 1 1 Caroline Aspord , Julie Charles , Dimitri Salameire , David Laurin , 1, 2 2, 3 1, 2 Laurence Chaperot , Marie-Therese Leccia , Joel Plumas Sonia Domingos-Pereira , Loane Decrausaz , Laurent Derré , Martine Bobst , Pedro Rome2 3 1 1 ro , John T.Schiller , Patrice Jichlinski , Denise Nardelli-Haefliger 1 EFS Rhone-Alpes, R&D Laboratory, La Tronche, F-38701 France 1 2 University Joseph Fourier, Grenoble, F-38041 France; INSERM, U823, Immunobiology & Immunotherapy of Cancers, La Tronche, F-38706 France Department of Urology, Centre Hospitalier Universitaire Vaudois and University of Lausanne, 1011 Lausanne, Switzerland 2 Ludwig Center for Cancer Research of the University of Lausanne, 1011 Lausanne, Switzerland. 3 Laboratory of Cellular Oncology, National Cancer Institute, NIH Bethesda, MD 20892, USA 3 CHU Grenoble, Michallon Hospital, Dermatology, pole pluridisciplinaire de medecine, Grenoble, F-38043 France 4 Anatomo-cytopathology department, Michallon Hospital, Grenoble, F-38043 France Therapeutic options to treat metastatic melanoma approach provides a pre-clinical basis for the de- Human papillomaviruses (HPV)-related cervical tumor regression upon ivag CpG was mediated by are limited and poorly effective. Yet many evi- velopment of pDC-based vaccine and an alternative cancer is the second leading cause of cancer death CD8 T-cells. Mechanisms of CD8 T-cell recruitment dences suggest that tumor-specific T-cells have the tool to produce tumor-specific T-cells for adoptive in women worldwide. HPV E6 and/or E7 oncogene in the genital mucosa are currently being exam- potential to control the tumor. One promising ther- cellular immunotherapy of melanoma patients. specific therapeutic vaccines are under active de- ined. These findings suggest that topical applica- apeutic option is to induce or transfer melanoma- velopment, but have had limited clinical efficacy tion of immunostimulatory molecules might sub- specific T-cells. Current approaches to elicit such to date. We hypothesized that specific immune re- stantially increase the effectiveness of parenterally T-cells are either not clinically efficient enough or sponses not only need to be targeted to the tumor administered vaccines in reducing HPV-induced fastidious processes that impede their extensive site but they need to overcome local complex im- genital neoplasia in women. clinical use. As pDCs play a crucial role in trig- munosuppressive tumor microenvironment. We gering anti-tumor immunity especially in mela- have developed a new strategy that consists in a noma, we explored their potential as a cell-based tumor associated antigen (TAA)-vaccination fol- approach for melanoma immunotherapy. We inves- lowed by the use of immunostimulants at the + tigated the potency of a human HLA-A*0201 irra- mucosal site where the tumor reside. Here we diated pDC line loaded with peptides derived from report that intravaginal (ivag) administration of the four major melanoma tumor antigens, MelA/ CpG-ODN (CpG, a TLR9 agonist) or poly (I:C) (PIC, MART-1, gp100/pmel17, tyrosinase and MAGE-A3, a TLR3 agonist) was able to increase approximately to trigger functional multi-specific T-cells ex vivo 5-fold the number of vaccine-specific IFN-γ secret- + 200 from a large series of HLA-A*0201 stage I-IV mela- ing CD8 T-cells in the genital mucosa of mice after noma patients’ PBMC and TIL. The pDCs loaded subcutaneous (s.c.) E7 vaccination, without affect- with melanoma-derived peptides promptly induced ing the E7-specific systemic response. Ivag CpG or melanoma tumor-specific T-cells from both PBMC PIC locally increased both E7-specific and total CD8 and TIL of melanoma patients. Responses towards T-cells, but not CD4 T-cells, most probably through MelA, gp100, tyrosinase and MAGE-A3 reached tet- recruitment from the periphery. This previously ramer levels up to respectively 62%, 41.4%, 85% unreported recruitment of activated CD8 T-cells by and 6% in 20 days. The pDC-primed central/effec- ivag CpG or PIC was mediated by TLR9 and TLR3/ tor memory anti-tumor T-cells are highly function- Mda5 signaling pathways, respectively. Most inter- al as they specifically secreted IFNγ and expressed estingly, ivag CpG after s.c. E7 vaccination of mice membrane CD107 upon stimulation, and exhibited bearing large established E7-expressing genital a strong cytotoxic activity towards semi-allogeneic tumors resulted in more efficient tumor regression but also patients’ own melanoma tumor cells. The than vaccination alone. Antibody-mediated cell- simple design and potent efficacy of this promising specific depletion confirmed that this enhanced 201 148 | Therapeutic Vaccination 149 | Therapeutic Vaccination Characterization of the human CD83 promoter complex for transcriptional targeting of dendritic cells in vivo Stimulation of dendritic cells with vaccine and vaccine- antibody complex and effect on immune response 1* 1* 2 2 1 1, 2 1 1 1 Ilka Knippertz , Marcello F. Stein , Stefan Lang , Thomas Winkler , Andrea Deinzer , 1 3 4, 5 1 Sebastian Erber , Dirk M. Nettelbeck , Thomas Werner , Alexander Steinkasserer Ibrahim Hatipoglu , Duygu Ercan , Ibrahim Sogut , Soner Aksu , 2 1 Hulya Sivas , Aynur Basalp 1 Department of Immune Modulation at the Department of Dermatology, University Hospital Erlangen, D-91052 Erlangen, Germany 1 TUBITAK Marmara Research Center, Genetic Engineering and Biotechnology Institute, P.O. Box 21, 41470 Gebze – Kocaeli, TURKEY 2 Department of Biology, Nikolaus-Fiebiger-Center for Molecular Medicine, Friedrich-AlexanderUniversity Erlangen-Nuremberg, D-91052 Erlangen, Germany 2 Anadolu University, Faculty of Science, Department of Biology, Eskisehir 26470, TURKEY 3 Helmholtz-University Group Oncolytic Adenoviruses at the DKFZ (German Cancer Research Center) and Department of Dermatology, Heidelberg University Hospital, D-69120 Heidelberg, Germany 4 c/o Genomatix Software GmbH, D-80335 Munich, Germany 5 Internal Medicine, Nephrology, University of Michigan, SPC5680 Ann Arbor, MI 48109, USA * Joint first authorship: These authors contributed equally to this work. 202 Dendritic cells (DCs) are the most important antigen 85 bp downstream of the minimal promoter region Dendritic cell (DC) vaccine is a promising and potent presenting cells (APC) since only DCs are able to which was shown to be the missing link to tightly therapeutic tool for chronic diseases, autoimmune induce naive immune responses which makes them regulate cell-type and stadium-specific human diseases and cancer because of DC’s unique ability optimal candidates for immunotherapy of cancer. CD83 expression. Moreover, these DNA regions to stimulate T-cells. The challenge of DC vaccine is One of the most prominently up-regulated mole- contain a complex framework of IRF- and NFκ B- to find an effective form for antigen presentation. cule during the maturation process of DCs is CD83, transcription factor binding sites mediating their Although pure antigens, antigen complexes, plas- thereby representing one of the best-known surface exact arrangement in DCs. Mutation of any of the mids and mRNA were used in different studies, any marker for fully mature DCs. However, the molec- IRF-binding sites resulted in a significant loss of proper application to overcome this problem has ular mechanisms leading to its specific transcrip- promoter activity, whereas over-expression of NFκ B not been found yet. tion are completely unknown. To determine these transcription factors clearly enhanced transcrip- In this study, we investigated the eligibility of mechanisms regulating the cell type- and stadium- tion. Finally, this highly complementary tripartite commercial HBV vaccine and vaccine-monoclonal specific human CD83 expression, ChIP-on-chip-, promoter-enhancer complex was shown to effi- antibody complex for antigen loading of DCs for biocomputational- and gene reporter analyses were ciently drive therapeutic transgene expression, i.e. a therapeutic purpose. DCs were derived from the performed. These studies revealed a transcriptional of MelanA and IL-12p70, in the DC cell line XS52. bone marrow of transgenic Hepatitis B (HBV-tg) activation complex formed by a 3D folding process Thus, this DC-specific CD83 promoter complex now mice using GM-CSF, IL-4 and then loaded with a involving three distinct DNA regions. Such a tripar- allows for the development of new in vivo target- commercial HBV vaccine (that contains hepatitis tite folding process has not been reported for any ing strategies for next generation DC-vaccination B virus surface antigens and aluminum hydroxide other gene so far. By ChIP-on-chip microarray we directly in patients suffering from cancer. adjuvant) and vaccine-antibody complex. HBV-tg could identify a highly transcriptional active region mice were immunized with vaccine and vaccine- within the human CD83 gene locus, in mature DCs. antibody loaded DCs. Optimum HBV vaccine con- Following deletion mutagenesis, we could charac- centration and loading time were determined by terize a short enhancer region of 185 bp. Impor- WST-1 and BrdU methods. Therapeutic effects of tantly this regulatory element was not active in im- vaccine-antibody loaded DCs were determined mature DCs, which induce tolerance mechanisms, by the evaluation of antibody response, IFNγ and or other cells expressing CD83, such as subsets of HBs expression levels in HBV-tg mice. Our results activated B- and T-cells. Further biocomputational showed that commercial HBV vaccine loaded DCs analyses identified an upstream promoter, located induced humoral response in HBV-tg mice but it has no effect on cellular immunity. Keywords: Dendritic cell vaccine, Hepatitis B virus, HBV vaccine 203 150 | Therapeutic Vaccination 151 | Therapeutic Vaccination A pilot study of peptide-based vaccines in combination with poly ICLC in patients with WHO grade 2 low-grade glioma Actively personalized multi-peptide vaccination for primary liver cancers – a novel strategy for overcoming residual disease 1 1 1 1 2 Hideho Okada , Lisa H. Butterfield , Masashi Sakaki , Aki Hoji , Andres M. Salazar , 3 1 Edward G. Shaw , Frank S. Lieberman 1 University of Pittsburgh Cancer Institute, Pittsburgh, PA 15217, USA 2 Oncovir Inc., Washington, DC 20008, USA 3 Wake Forest Baptist Medical Center, Winston Salem, NC 27157, USA 1, 3 1 3 1, 3 1 University of Tübingen, Institute for Cell Biology, Department of Immunology, Tübingen, Germany 2 Department of Medical Genetics, Institute of Human Genetics, Tübingen, Germany 3 Department of General, Visceral- and Transplant Surgery, University of Tübingen, Gerrmany Introduction: Adult patients with WHO grade 2 vivin, and WT1. As these GAAs are expressed not Primary liver cancers, mainly hepatocellular car- differences between tumor and germline genome low-grade glioma (LGG) have a significant risk of only in a subset of LGG cells but even at higher cinomas (HCC), are among the five most common are determined and specific databases are gener- tumor progression despite treatment with surgery levels in HGG cells, our vaccine approach may offer cancers globally and a leading cause of cancer ated. Tumor specific peptides are predicted using or surgery followed by radiation therapy (RT) and both immunotherapeutic and immunoprophylactic related death. More than half a million patients SYFPEITHI database to facilitate a targeted search /or chemotherapy, and most patients eventually potential to reduce the risk of tumor recurrence. are diagnosed with HCC every year. Especially in for mutated peptides in the MS -data. In addition die of the disease. High-risk subsets of these LGG Results: To date, 13, 1 and 10 patients have been Europe and the USA incidence numbers have been to tumor tissue adjacent benign tissue of patients patients display astrocytoma or oligoastrocytoma enrolled in Cohorts 1, 2 and 3, respectively. No rising over the last decades. was analyzed in the same fashion. So far sample histology plus any one of the following conditions: dose-limiting non-CNS toxicity has been encoun- With chemotherapies and other adjuvant strategies pairs from seven patients have been investigated 1) age ≥40 with any extent resection; 2) age 18-39 tered except for one case with Grade 3 fever (Cohort showing only limited benefit, available therapeutic in this manner. with incomplete resection; or 3) age 18-39 with neu- 1). ELISPOT assays, completed in 7 and 1 patients options are scarce. Therefore primary malignan- Based on this approach, we aim at providing an rosurgeon-defi ned gross total resection with tumor in Cohorts 1 and 2, respectively, demonstrated cies of the liver are a promising entity for targeted actively personalized vaccine cocktail of individual size ≥ 4 cm in diameter. These patients have as high robust and sustained interferon (IFN)-γ (type-1) re- immune intervention after surgery. patient- and tumor-specific peptides for adjuvant as an 89% risk of recurrence by 5 years following sponses against at least 3 of the GAA epitopes in all In order to provide a novel effective and targeted tumor therapy. This approach is completely new surgery. cases, while IL-5 (type-2) responses were absent or adjuvant therapeutic approach, we focus on natu- and may offer the chance of overcoming residual Methods: Based on encouraging data from a phase I transient in all cases. The magnitude of the IFN-γ rally processed and presented MHC-ligands eluted disease, which is a major cause of tumor relapse vaccine study targeting multiple glioma-associated ELISPOT responses in the current study was sig- directly from the tumor. Our interest is particular- so far. antigen (GAA) epitopes in adult high-grade glioma nificantly higher than that observed in our previ- ly focused on mutated peptides representing neo- (HGG) patients, we initiated a bi-institutional ous phase I/II study in HGG patients (Okada H et epitopes derived from specific tumor mutations ex- pilot study of subcutaneous vaccinations with al. 2011). Although evaluation of progression-free clusively present on malignant tissue. Those tumor synthetic peptides for GAA epitopes emulsified survival would require a longer observation period, specific peptides lack central tolerance and should in Montanide-ISA-51 every 3 weeks for 8 courses, among 9, 1 and 8 patients who completed the 8 vac- be highly immunogenic. To identify those peptides and intramuscular administration of poly-ICLC in cinations spanning 24 weeks, 6, 1 and 3 patients in we employ a dual approach. HLA-A2 patients with: newly diagnosed high-risk Cohorts 1, 2 and 3, respectively, are currently with On the one hand MHC-ligands are isolated by LGG without prior RT (Cohort 1); newly diagnosed stable disease (with the median follow-up period means of immunoaffi nity chromatography of MHC high-risk LGG with prior RT (Cohort 2), or recur- of 16.2 months). molecules followed by acidic elution of peptides. rent LGG (Cohort 3). Primary endpoints were safety + Conclusion: Our preliminary results demonstrate These peptides are subsequently identified using and CD8 T-cell responses against vaccine-targeted that the regimen in these patients is well tolerated, tandem mass spectrometry and database depend- GAAs, assessed by Enzyme-Linked Immuno-SPOT and induces robust type-1 anti-GAA T-cell respons- ent search algorithms. On the other hand genomic (ELISPOT) assays. Treatment response was evalu- es. These data suggest that patients with LGG are mutations forming the basis for tumor specific ated clinically and by MR imaging. Targeted GAAs suitable for vaccine therapy. MHC-ligands are analyzed by next generation + were EphA2, interleukin (IL)-13 receptor-α2, sur204 1 Nico Trautwein , Markus Löffler ,Mathias Walzer , Derek Zieker , Philipp Horvath , 3 2 2 2 1 Silvio Nadalin , Christopher Schroeder , Peter Bauer , Olaf Riess , Alfred Königsrainer , 1 1 Hans-Georg Rammensee , Stefan Stevanović 2 exome sequencing. Based on sequencing results 205 152 | Therapeutic Vaccination 153 | Therapeutic Vaccination Induction of antigen-specific T and B cell responses in mice with a reconstituted human immune system Vaccines for tumour prevention: Does Indoleamine 2,3-Dioxy genase (IDO) silencing enhance DNA vaccination? 1 1 3 2 1 1 3 3 2 Morad Zayoud , Khalifa El- Malki , Katrin Frauenknecht , Bettina Trinscheck , Helmut 2 3 1 1 Jonuleit , Clemens. Sommer , Ari Waisman and Florian C. Kurschus Marco Macagno , Elisabetta Bolli , Cristina Marchini , Augusto Amici , Chiara Riganti , 2 1 1 Amalia Bosia , Guido Forni , and Federica Cavallo 1 Institute for Molecular Medicine 1 2 Department of Dermatology Department of Clinical and Biological Sciences, Molecular Biotechnology Center, University of Torino, Torino, Italy 3 Department of Neuropathology, University Medical Center of the Johannes Gutenberg University Mainz, Mainz, Germany. 2 Department of Genetics, Biology and Biochemistry Laboratory, University of Torino, Torino, Italy 3 Genetic Immunization Laboratory, Department of Molecular Cellular and Animal Biology, University of Camerino, Italy Vaccination with antigen-pulsed dendritic cells and IFN-γ when stimulated in vitro with myelin As tumor progresses the efficacy of vaccination is cellular and transmembrane domains of rat Erbb-2 (DCs) is a strategy, which has been employed to antigens. tuned down by suppressive activities. The admin- (pVAX-ratECTM) and used for vaccination of BALB- induce specific immune responses in trials to cure In summary, we confirmed that the huPBL-NSG istration of adjuvants or the silencing of specific neuT mice carrying different stages of mammary chronic infections as well as a treatment for cancer. mice vaccinated with antigen pulsed DCs and then immune regulatory molecules will optimize the carcinogenesis. The in vivo study of this system in current mouse immunized with antigen in CFA can be used as function antigen presenting cells (APC) and will All the five interference cassettes were able to models and the limitation of clinical studies in pa- safe model to develop and study DC-based vaccina- permit the immune response elicited to be active reduce kynurenine release from N11 cells, con- tients and their outcome gives only limited infor- tion, and further to study the ability of the human at the tumor site. firming their ability to silence IDO expression. mation on how to improve this therapy option to immune response to these antigens and finally to Indoleamine 2, 3-dioxygenase (IDO) the enzyme Two cassettes were chosen to be subcloned into finally obtain a benefit in the clinical treatment. obtain a benefit for future clinical trials. that degrades the essential amino acid tryptophan pVAX-ratECTM, and used to vaccinate BALB-neuT For bridging the gap between traditional mouse in mammals is overexpressed in both tumor cells mice bearing atypical hyperplasia and in situ car- models and the human limited clinical trials we and APCs in tumor-draining lymph nodes, where it cinomas (weeks 10 and 12 of age) or microscopic envisaged the development of a DC-based vaccina- promotes the establishment of peripheral immune invasive carcinomas (weeks 16 and 18). The in vivo tion model in humanized mice, namely mice that tolerance to tumor antigens. IDO seems to be an observation of mammary cancer progression is still contain a human immune system. For that purpose ideal target to be silenced for the optimal induction ongoing. we humanized immunodeficient NOD/SCID/gc 206 -/- of an antitumor immune response. We expect that this simultaneous alteration of (NSG) mice with human peripheral blood mononu- We plan to use plasmids coding short shRNA spe- tumor microenvironment and induction of an clear cells (PBMCs), which permit the engraftment cific for IDO to be administered together with the immune response against Erbb-2 elicits an anti- and expansion of human immune cells in vivo. plasmid coding portion of Erbb-2, or plasmids con- tumor response of therapeutic significance, in that These mice were then immunized with a combina- taining both the shRNA module and the oncoan- it halts the progression of lesions that cannot be tion of myelin-antigen pulsed DCs and active im- tigen module, in vaccination-protection tests in inhibited by Erbb-2 vaccination alone. munization in Complete Freund’s Adjuvant (CFA) BALB-neuT mice transgenic for the rat Erbb-2. Ret- with the latter antigens. roviral vectors (pLKO.1, Open Biosystem®) includ- Starting at 18 days after the first DC-based priming, ing five shRNA sequences targeting IDO mRNA we found a specific weight loss in the antigen-im- have been used as template to amplify the inter- munized mouse group. We then found engraft- ference cassettes (pU6-shRNA-IDO) that we cloned ment of human B and T-cells in the spleen of these into the Eco72I site of both pVAX1 (Invitrogen®). mice, CNS cell infiltration as specific reaction to The gene silencing efficacy of the various interfer- myelin and human anti-myelin antibodies in the ence cassettes was evaluated in a kynurenine assay sera. Notably, T-cells recovered from these animals using N11 microglial cells (Grant et al. 2000). The showed specific proliferation and proinflammatory most efficacious cassettes were subcloned into a cytokine production such as IL-6, TNF-α, IL-17A pVAX vector containing the sequence of the extra207 154 | Therapeutic Vaccination 155 | Therapeutic Vaccination DCONE: Next generation off-the-shelf dendritic cell vaccine applicable for a broad range of cancer indications Expansion of polyfunctional antigen-specific T-cells upon stimulation with mRNA electroporated dendritic cells in the presence of immunomodulatory drugs 1 2 2 3 1 2 2 3 1 Sandra van Wetering , Saskia Santegoeds , Tanja de Gruijl , Gert Ossenkoppele , 3 1 Arjan van den Loosdrecht , Ada Kruisbeek Brenda De Keersmaecker , Sabine D. Allard , Patrick Lacor , Rik Schots , Kris Thielemans 1 and Joeri L. Aerts 1 DCPrime BV, De Boelelaan 1085, 1081 HV, Amsterdam 1 Laboratory of Molecular and Cellular Therapy, Vrije Universiteit Brussel, Brussels, Belgium 2 Dept of of Medical Oncology 2 3 Dept of Haematology, VU University Medical Center, De Boelelaan 1117, 1081 HV Amsterdam, Netherlands. Department of Internal Medicine and Infectious Diseases, Universitair Ziekenhuis Brussel, Brussels, Belgium 3 Department of Clinical Hematology, Universitair Ziekenhuis Brussel, Brussels, Belgium DCPrime is developing novel dendritic cell (DC) In addition, upon pulsing with antigenic peptides Since its FDA approval, thalidomide/dexametha- ciated with a better HIV disease control. Further- vaccines based on its proprietary DCOne cell line. of choice, mature DCOne cells efficiently present sone combination therapy has been successfully more, CD8 T-cells responded to lower antigenic This DCOne is a precursor cell for dendritic cells, them to T-cells, and can do so equally well after used in first-line multiple myeloma treatment. peptide concentrations and recognized a higher and is used to generate ‘off-the-shelf’, as opposed to freezing and thawing. More active and less toxic thalidomide-derivatives number of Gag epitopes upon addition of IMiDs. patient-based, dendritic cell based vaccine. DCOne DCPrime’s lead product DCP-001, which consists such as lenalidomide and pomalidomide have been As opposed to the CD8 T-cell proliferation, IMiDs originates from a human myeloid leukemia precur- of matured DCOne cells, is applicable for various developed. Thalidomide and its derivatives exert reduced the proliferation of the HIV-specific CD4 sor cell line and endogenously expresses multiple tumour indications but is currently being tested direct anti-tumor effects but are also strong stimu- T-cells while increasing the number of polyfunc- tumour associated antigens. in an open label dose-escalation Phase I/IIa study lators of NK-cell and polyclonal T-cell responses tional CD4 T-cells, be it to a lesser extent com- DCPrime has developed reproducible procedures to in Acute Myeloid Leukemia (AML) patients. This and are therefore referred to as immunomodula- pared to the CD8 T-cells. make fully functional DC out of DCOne, such that study will provide essential safety and immuno- tory drugs (IMiDs). We hypothesize that the immu- These results provide new information about the it can become a more patient friendly alternative logical monitoring data, in preparation for subse- nostimulatory properties of IMiDs could improve effects of IMiDs on antigen-specific T-cells and to the current cumbersome patient-based DC-based quent Phase II and III studies in AML. Currently, 6 the efficacy of immunotherapies, such as dendritic suggest that these drugs might increase the effi- products. Potential functionality of the DCOne cell patients have completed four cycles of vaccination cell-based vaccines. In this study, we therefore aim cacy of immune therapies for infectious diseases line to serve as the basis for dendritic cell based and treatment was well tolerated with no product to investigate the effects of IMiDs on antigen-spe- and cancer. cancer vaccines, has been established in multiple related adverse events, indicating that treatment is cific T-cell responses in vitro. in vitro assays. Essentially, matured DCOne cells feasible and safe. Systemic immune responses such Since it has been demonstrated that disease pro- exhibit all the properties of functional mature DCs as Delayed Type Hypersensitivity reactions (DTH), gression during HIV infection is not merely deter- derived from blood borne precursors and display T-cell infiltrates (CD4 and CD8 T-cells) within the mined by the number of HIV-specific T-cells, but a specific repertoire of DC surface molecules that DTH sites, and antibody responses have been noted rather by their quality, strategies to specifically are widely used and accepted as the DC hallmarks in several patients. Additional immune biomarker enhance or induce high quality HIV-specific T-cell associated with mature and fully functional den- and clinical response data will be collected in the responses are necessary to develop effective HIV dritic cells. Pertinent functional characteristics next few months. immune therapies. Therefore, we decided to evalu- are also expressed by mature DCOne cells: They ate the effects of lenalidomide and pomalidomide display MHC-class I and II antigens essential for on HIV-specific T-cells. We found that the presence antigen processing and presentation, they migrate of IMiDs during in vitro T-cell stimulation with den- in response to lymph node homing chemokines, dritic cells electroporated with Gag or Nef encoding induce T-cell proliferation, induce specific cytokine mRNA resulted in an increased HIV-specific CD8 T-cell proliferation and cytokine (IFN-γ, TNF-α and response towards a Th1/Th17 response, and can IL-2) production. Interestingly, the IMiDs particu- + T-cells that are subsequently able to kill tumour targeT-cells. 208 + + + + + release by T-cells indicating skewing of the T-cell prime tumour antigen-reactive CD8 + + larly enhanced polyfunctional HIV-specific CD8 T-cells, which were previously shown to be asso209 156 | Therapeutic Vaccination 157 | Therapeutic Vaccination Targeting Cancer Stem Cells by raising cytotoxic T-cell responses against the stemness protein SOX2 Comprehensive preclinical model evaluating a protein-based PRAME specific cancer immunotherapy to fight against PRAME expressing tumors Lukasz Bialkowski, Brenda De Keersmaecker, Sandra Van Lint, Sarah Maenhout, Kevin Van der Jeught, Carlo Heirman, Kris Thielemans, Joeri Aerts Catherine Gérard, Nathalie Baudson, Thierry Ory, Romain Piccininno, Aurelie Delplanque, Carole François, Lawrence Segal, Jamila Louahed Laboratory of Molecular and Cellular Therapy, Vrije Universiteit Brussel, Laarbeeklaan 103E, 1090 Brussels, Belgium GlaxoSmithKline Biologicals, Rixensart, Belgium 210 Despite significant advances one of the major chal- By means of in vivo cytotoxic T lymphocyte (CTL) Background: The human tumor antigen PRAME specifically protected against a tumor challenge lenges in oncology remains the frequent recurrence assays, we show that mice immunized with SOX2- (PReferentially expressed Antigen of MElanoma) is with PRAME-expressing tumor cells with a long of tumor, even in the absence of clinical signs of TriMix mRNA developed SOX2-specific CTL re- expressed in a variety of cancers. This antigen rep- lasting memory when the challenge was applied neoplasia. Growing evidence indicates that cancer sponses. Additionally, using overlapping 15-mer resents an excellent target for immunotherapy as its long after the last immunization (2 months). relapse is likely driven by a rare population of cells peptides (n=86), we identified regions within the expression is shared by different tumor types. The Experiments in HLA-A02.01/HLA-DR1 transgenic endowed with stem cell characteristics lurking SOX2 protein that are the most immunogenic. development of a PRAME cancer immunotherapy mice showed the induction of both anti-PRAME within treated primary tumor beds and initiating Preliminary ELISA and intracellular cytokine stain- able to induce strong T-cell responses would be a CD4 and CD8 T-cell responses. tumors at distant places. Therefore, specific target- ing (ICS) experiments performed on spleno-cytes specific targeted therapy and could provide signifi- A repeated dose toxicity study conducted with non- ing of these cancer stem cells (CSCs) could turn isolated from immunized mice, showed that in re- cant benefits to a large number of cancer patients. human primates has shown that the PRAME Im- a short-term remission into long-term disease-free sponse to in vitro restimulation these cells secrete Methods: In these studies we used a mouse tumor munotherapy was well tolerated and did not induce survival for many cancer patients. cytokines such as IFN-γ and IL-2 and exhibit a lytic genetically modified to express PRAME. We char- any signs of systemic toxicity. One of the major character-ristics of CSCs is their capacity in vitro against targeT-cells expressing the acterized the immune response and anti-tumor Conclusion: Preclinical results showed that PRAME expression of stemness genes, such as SOX2, Nanog antigen of interest. activity following repeated injections of a PRAME immunotherapy consistently induced a compre- and OCT4. It has been shown that these transcrip- We are currently trying to identify specific epitopes recombinant protein formulated with an im- hensive immune response and provided protection tion factors play an important role in maintaining within the SOX2 sequence. This should facilitate munostimulant. We also evaluated the immune of mice against tumor challenge. This supports the the stemness of embryonic stem cells and become future experiments, as defined peptides can be response induced by PRAME in HLA-A02.01/ choice to use an immunostimulant in combination reactivated in several human cancers. Moreover, used for immunization and read-out, e.g. by gener- HLA-DR1 transgenic mice. The safety and tolerabil- with the PRAME protein for future clinical develop- monoclonal gammopathy of undetermined signifi- ating SOX2-specific tetramers. ity of the PRAME immunotherapy was assessed by ment. The PRAME immunotherapy has now moved cance (MGUS) patients display significant levels of In summary, we have shown that SOX2-specific repeated injections in cynomolgus monkeys. into Phase I development in melanoma and NSCLC. T-cell immunity against the stemness protein SOX2. CTLs can be raised in mice by intranodal mRNA Results: The experiments conducted in mice dem- Therefore we decided to investigate the potential of injection. We will now pinpoint the epitopes and onstrated that the PRAME protein was weakly SOX2 as a target for anti-cancer vaccination. evaluate whether these CTLs are capable of recog- immunogenic by itself and that the addition of In a first instance we evaluated the immunogenic- nizing CSCs in vitro. Ultimately, we want to treat an immunostimulant was required to induce a ity of SOX2 in mice. To that aim we employed a mice inoculated with CSCs by targeting SOX2. comprehensive immune response. This response novel immunization technique in which mRNA included 1) the generation of PRAME-specific anti- encoding a given antigenic peptide is directly in- bodies with a Th1 isotypic profile, and 2) the induc- jected into inguinal lymph nodes, along with a tion of PRAME-specific CD4 T-cells that were able mixture of mRNAs encoding CD40L, constitutively to produce cytokines IFNγ, TNFα) in response to the active TLR4, and CD70 (TriMix). DCs matured with antigen. The immune response induced was sys- TriMix mRNA were shown to be capable of effi- temic as it could be identified in lymphoid organs ciently stimulating antigen-specific T-cells. and in the blood. Moreover, immunized mice were + + + 211 158 | Therapeutic Vaccination 159 | Therapeutic Vaccination Combining common chemotherapeutic regimens with immunotherapy – assessment of the immunological effects of FOLFOX, FOLFIRI and cisplatin RNAdjuvant®: a novel, highly-potent, RNA-based adjuvant supports induction of balanced immune response (TH1 and TH2) and anti-tumor activity Nina Pawlowski, Helen Hörzer, Toni Weinschenk, Harpreet Singh, Norbert Hilf Regina Heidenreich, Mariola Fotin-Mleczek, Patrick Baumhof, Birgit Scheel, Söhnke Voss, Thomas Kramps, Karl-Josef Kallen immatics biotechnologies GmbH, Tübingen, Germany CureVac GmbH, Tübingen, Germany 212 In the past the predominant opinion was that or concurrent with each vaccination. Two weeks For efficient cancer immunotherapy, strong adju- ing the shift towards TH1 response as determined chemotherapies (CTs) are immunosuppressive and after the first immunization, induction of OVA- vants are mandatory to induce a potent and per- by increased titers of IgG2a antibodies. therefore a combination of chemotherapy with 001-specific T-cell was analyzed flow cytometry sistent immune response, particularly as tumor Peptide-based vaccines, including Ovalbumin-de- immunotherapy would be not advisable. Today, after MHC multimer staining as well as by IFN- associated antigens used as purified proteins or rived SIINFEKL epitope and Human Papillomavi- this dogma has been questioned by recent find- gamma ELISPOT. peptides show mostly only a weak intrinsic im- rus (HPV)-derived peptides, also strongly benefit- ings showing that several CTs can be used to even No significant (negative or positive) effect of OX- or munogenicity. CureVac have recently developed ed from RNAdjuvant® and exhibited significantly modulate the immune system and/or the tumor CDDP-based treatment on CTL induction if chemo- a novel RNA-based adjuvant with strong immu- higher T-cell responses compared to non-adjuvant- microenvironment in a favorable way, thereby fa- therapy was applied 3 days before vaccination. If nostimulatory properties. RNAdjuvant® is physi- ed counterparts. cilitating the control of tumor progression by the chemotherapy and vaccination were applied simul- cally and chemically well-defined and exhibits a Tumor challenge experiments revealed a complete patient’s immune system or by immunotherapies taneous, there was a significant decrease of CTL very good safety profile. RNAdjuvant® is well tol- protection of mice vaccinated with RNAdjuvant® as for example cancer vaccines. Biweekly applied induction in mice treated with CDDP-based, but erated even at high doses and does not induce in in combination with either recombinant protein oxaliplatin (OX)- and irinotecan (IR)-based CTs not with OX- or IR-based CT. Moreover, treatment mice the splenomegaly described for standard ad- (Ovalbumin) or peptides (HPV-derived), whereas (e.g. FOLFOX or FOLFIRI) are standard treatments of mice with CDDP 3 days before vaccination com- juvants such as CpG-DNA. RNAdjuvant® supports vaccination with protein or peptides alone had no for colorectal cancer while cisplatin (CDDP)-based bined with repeated daily 5-FU application (day -3 to both antigenic formats of recombinant proteins and impact on tumor growth. Importantly, vaccination regimens are common in the treatment of gastric day +1) significantly inhibited immune responses. peptides, causing dramatically increased immuno- with RNAdjuvant® in combination with both anti- cancers, but only few reports have examined the Although OX- or IR-based CTs had no significant genicity of these vaccines, especially in respect of genic formats led to a significant growth inhibition effects of these CT regimens on the immune system. inhibitory influence on vaccine-induced immune T-cell responses and anti-tumoral activity. In vitro of already established tumors. Here, we evaluated the influence of common CT responses in our mouse experiments, additional in studies in human peripheral blood monocytes dem- Taken together our data demonstrate that RNAdju- compounds (OX, IR, 5-fluorouracil (5-FU) plus leu- vitro analyses (mixed lymphocyte reaction) using onstrated that RNAdjuvant® is preferentially taken vant® represents a novel breakthrough technology coverin (LV) or CDDP) on vaccine-induced immune human PBMCs showed an inhibitory effect of OR up by antigen presenting cells (APC) resulting in which may revolutionize the field of cancer vac- responses in vivo. C57BL/6 mice were immunized and IR on CD4 and CD8 T-cell proliferation when a strong APC activation. RNAdjuvant® induced cines requiring safe and potent adjuvants. subcutaneously (s.c.) twice (day 0 and day 7) with the cytotoxic agents were used in clinically rele- activation of APC led to an increased expression 50 µg of SIINFEKL (OVA-001) peptide alone (nega- vant concentrations. of specific activation markers and secretion of cy- tive control) or combined with 200 µg Poly-IC as In summary, these results suggest that immuno- tokines driving a pronounced TH1 response. In ad- adjuvants (positive control). Some mice received therapy can be combined with chemotherapy regi- dition, RNAdjuvant® stimulates the innate immune additionally two intraperitoneal (i.p.) applications mens without reducing immunological efficacy, response by activation of (natural killer) NK cells of OX-based (10 mg/kg 5-FU + 5 mg/kg LV + 5 but that the timing of applications has to be care- and IL-12 secretion. mg/kg OX per cycle, resembling FOLFOX regimen fully chosen. Due to the anti-proliferative effects In vivo, vaccination with RNAdjuvant® in combi- in humans), IR-based (10mg/kg 5-FU + 5 mg/kg in vitro and the slight decrease in CTL induction nation with recombinant protein, e.g. Ovalbumin, LV + 20 mg/kg IR per cycle, resembling FOLFIRI) by concurrent application in vivo, patients should elicited strong antigen-specific cytotoxic T-cell re- or CDDP/5-FU based (1 or 5 daily applications of be immunized at the earliest 48h after CT to avoid sponses, which are barely induced by vaccination 10mg/kg 5-FU + application of 5 mg/kg CDDP negative effects of CT on vaccine-induced immune with recombinant protein alone. RNAdjuvant® also per cycle) CT regimens 3 days before vaccination responses. enhanced the humoral response strongly support213 160 | Therapeutic Vaccination 161 | Therapeutic Vaccination Dendritic cell vaccination in melanoma patients: mRNA electroporated dendritic cells improves immunological and clinical responses IVAC - Individualized Vaccines for Cancer 1, 2 1, 2 1 2 1 Kalijn F. Bol , Erik H. Aarntzen , Gerty Schreibelt , W. Joost Lesterhuis , Carl G. Figdor , 2 1 1 Cornelis J. Punt , Jolanda M. de Vries , Gosse Adema 1 2 Department of Tumor Immunology, Nijmegen Centre for Molecular Life Sciences, Nijmegen, Netherlands. Department of Medical Oncology, Radboud University Nijmegen Medical Centre, Nijmegen, Netherlands. 1 1 1 1, 2 Niels van de Roemer , Jan Diekmann , Sebastian Kreiter , Abderrouf Selmi , 1 1, 2 1, 2 1 1, 2 Mustafa Diken , Marc Holzmann , René Roth , Cedrik Britten and Ugur Sahin 1 Center for Translational Oncology and Immunology (TRON) 2 Experimental & Translational Oncology, Department of Internal Medicine III, Group of Prof. U. Sahin / PD Dr. Ö. Türeci, Johannes Gutenberg University Mainz, Germany Immunotherapy exploiting ex vivo generated au- Cancer is driven by multiple genetic events followed mutations by whole exome sequencing. After se- tologous dendritic cells (DC) has proven proof of by further clonal evolution, making disease elimi- lection of high expressed genes and potential principal in clinical trials. We, and others, have nation with single targeted drugs a difficult task. MHC binding affinities of the respective mutated shown that tumor-specific immune responses can The multiplicity of gene mutations derived from epitopes 50 mutations were chosen and validated be induced in stage III and IV melanoma patients. sub-clone heterogeneity may represent an ideal by Sanger-Sequencing. For these 50 mutations, we The majority of clinical studies in melanoma pa- setting for multi-epitope tumor vaccination. Vac- wanted to define the immunogenicity of the muta- tients have been performed with MHC class I re- cination is a powerful method to induce humoral tion coding sequences. To this end, we designed stricted peptide-pulsed DC. There are at least theo- and cellular adaptive immune responses aiming 27-meric peptides incorporating either the mutated retical disadvantages of this method. Firstly, the to control bacterial and viral infections as well as or the wildtype amino acid centrally and immu- use of MHC class I restricted peptide epitopes and tumor growth. Whereas the prevention of infections nized C57BL/6 mice with the mutated peptides. + cytotoxic T-cells only, relies on neutralizing antibodies, the treatment of Using IFNγ ELISpot we found one third (16/50) of without involving CD4 T helper cells in the induc- chronic intracellular infections and cancer strongly them were shown to be immunogenic. Of these, tion of specific anti-tumor responses. Furthermore, + depends on the activation of antigen-specific CD4 60% elicited immune responses preferentially di- the peptide epitopes may dissociate from MHC and CD8 T-cells. Vaccines are particularly suited rected against the mutated sequence as compared molecules due to low affinity and MHC turnover for precise targeting of tumor associated molecular to the wild type sequence. In the next step, we and it does not account for post-transcriptional alterations. In the last years, multiple tumor- asso- tested the anti tumor potency of the new B16-F10 modifications of peptide epitopes. A strategy to ciated antigens (TAA) have been identified. Several epitopes in a tumor transplant model. Immuniza- circumvent most of the disadvantages of peptide categories of TAA have been described based on tion with peptides conferred in vivo tumor control pulsing, is mRNA electroporation. In our clinical tumor-associated deregulation of gene expression. in protective and therapeutic settings, qualifying trial we investigated the immunological and clini- Furthermore, neo-epitopes can be created by non- mutated epitopes containing single amino acid sub- cal responses to intranodal vaccination with DC synonymous, somatic mutations. As they are not stitutions as effective vaccines. Our study provides electroporated with mRNA encoding for gp100 and subject to central immune tolerance, these muta- a comprehensive picture of the B16-F10 mutanome tyrosinase. We show that electroporated DC retain tions can be ideal candidates for individual vaccine and gives a first insight into the immunogenicity their phenotype and maturation potential and that development. Human cancers carry 100-300 non- of non-synonymous point mutations. The combina- they are able to induce functional, IFNγ producing, synonymous mutations on average. Our starting tion of deep sequencing with systematic analysis hypothesis is that cancer can be targeted by T-cells of the immunogenicity paves a new path for the induced by poly-neo-epitopic vaccines based on individualized immunotherapy of cancer patients. therereby targeting CD8 + + tumor-specific CD8 cytotoxic T-cells in a subset of + our patients as well as CD4 tumor-specific cells. + non-synonymous individual tumor-specific mutations. For testing this hypothesis, we resorted to B16-F10 murine melanoma for which our team has identified more than 500 non-synonymous 214 215 162 | Therapeutic Vaccination 163 | Therapeutic Vaccination Intradermal immunization with a novel mRNA-based vaccination technology induces strong T- and B-cell responses in phase I/IIa trials in non-small-cell lung cancer (NSCLC) and prostate carcinoma (PCA) Immunological results of a phase 1-2 therapeutic vaccination study by MGN1601 in patients with advanced renal cell carcinoma 1 2 3 4 5 Martin Sebastian , Hubert Kübler , Arnulf Stenzl , Kurt Miller , Alfred Zippelius , Wolfgang 6 3 7 8 9 Schultze-Seemann , Frank Mayer , Martin Reck , Djordje Atanackovic , Frank vom Dorp , Lotta 11 10 10 10 11 von Boehmer , Birgit Scheel , Sven D. Koch , Thomas Lander , Alexander Knuth , Karl-Josef 10 Kallen 1 Med. Klinik,Universität Mainz Mainz, Germany, 2 Klinikum rechts der Isar der TU München, München, Germany 3 Universitätsklinik Tübingen, Tübingen, Germany 4 Charité - Universitätsmedizin Berlin, Berlin, Germany 5 Universitätsspital Basel, Basel, Switzerland 6 Universitätsklinikum Freiburg, Freiburg, Germany 7 Krankenhaus Großhansdorf, Hamburg, Pneumologie und Thoraxchirurgie, Germany 6 Universitätsklinik Hamburg-Eppendorf, Hamburg, Germany 9 Universitätsklinikum Essen, Essen, Germany 10 CureVac GmbH, Tübingen, Germany 11 UniversitätsSpital Zürich, Zürich, Switzerland 1 2 3 1 Mologen AG, Berlin, Germany 2 Charité University Medicine, Clinic for Urology, Department for Internal Medicine, Berlin, Germany 3 Medical University Hannover, Department Hematology and Oncology, Germany 4 University of Bonn, Department of Medicine III, Center for Integrated Oncology, Bonn, Germany 5 Foundation Institute Molecular Biology and Bioinformatics, Freie Universitaet Berlin, Germany Background: In this first-in-man phase 1-2 clinical Results: Of nineteen patients with heavily pre- trial (ASET study) safety, efficacy, and immuno- treated advanced stage RCC, ten completed the genicity of the cell-based therapeutic cancer vaccine treatment phase per protocol (TPP). Four out of 19 MGN1601 were evaluated. MGN1601 consists of two intended to treat patients (21%) achieved disease CV9201 and CV9103 are novel cancer vaccines against quency was observed. A confirmed PSA decline > 80% active pharmaceutical ingredients in fixed combi- control (one PR and three SD) after 12 weeks ac- NSCLC and castrate-resistant PCa composed of self- was observed in 1 patient. nation: fourfold gene-modified, allogeneic tumor cording to RECIST 1.1 and irRC criteria. In the adjuvanting mRNA molecules that are administered CV9201 was tested in NSCLC patients (stage IIIb/ cells expressing IL-7, GM-CSF, CD80, and CD154 TPP population the rate of patients with disease intra-dermally. Both trials were open-label, uncon- IV) with at least stable disease after 1st line chemo- through MIDGE® gene expression vectors and the control was 40% (4 out of 10). In these patients, trolled, multi-center, international, prospective, in-pa- therapy or chemoradiotherapy. Treatment related AEs DNA-based immunomodulator dSLIM® as a TLR-9 the frequencies of tumor-specific IFN-γ secreting tient phase I/II studies with the primary objective in were mainly grade 1/2 injection site reactions or fever. agonist. Patients with advanced renal cell carcino- CTL and the titres of vaccine-specific antibodies phase I being dose finding for the phase II part, assess- Neither dose-limiting toxicities nor related serious AEs ma (RCC), who failed standard therapy lines, were did increase with increasing rounds of vaccina- ment of safety of the trial regimen and evaluation of were observed. 31 patients received up to 5 vaccina- included in this study. tion. The frequencies of monocytic MDSC in PMBC induction of immune response. In Phase II, the respec- tions and were evaluated for the induction of immune Methods: The ASET study was designed as a mul- slightly decreased during vaccination in those pa- tive objective was assessment of safety, evaluation of responses two weeks after the 3 and 5 vaccination. ticentric, open, single-arm phase 1-2 clinical trial. tients, who achieved disease control, whereas this induction of immune response and assessment of anti- Ag-specific B- or T-cell responses were assessed using During the treatment phase the study drug was cell population increased in patients with progres- tumor activity. CV9201 is composed of mRNAs coding the before mentioned methods. Ag-specific immune re- administered eight times; the first three applica- sive disease (PD) after 12 weeks of treatment. The for NY-ESO-1, MAGE-C1, MAGE-C2, Survivin and 5T4; sponses were detected in 65% of patients, 56% thereof tions in weekly intervals, and the following five ap- CD3+ T-cell frequencies increased or were stable CV9103 of mRNAs coding for PSA, PSCA, PSMA and were multiple responders. Remarkably, a significant 2.5 plications every two weeks. Patients who achieved in the patients with disease control, but decreased STEAP-1. Blood samples were taken before and vac- - 13 fold shift from naïve B-cells to pre-germinal center disease control (defined as CR, PR or SD) were pro- in patients with PD following the course treatment. cination. Immune response was assessed by ELISPOT B-cells was detected in 61% of patients. The presence of posed for an extension phase to receive 5 further Conclusions: (IFN-γ), intracellular cytokine staining (IFN-γ, TNFα, ag-specific B cells was demonstrated exemplarily with applications up to week 120. During treatment, the MGN1601 shows promising efficacy in late stage rd th The therapeutic cancer vaccine IL-2), tetramer analysis (ex vivo) or ELISA. a B-cell proliferation assay. Altogether, 84% of patients following immunological parameters were evalu- RCC patients, and the pronounced radiological The final data analysis of CV9103 vaccination in PCa showed an immune reaction after vaccination. ated: frequency of cytotoxic T-cells (CTL), as de- response corresponds well with the measured patients revealed favorable safety with possibly related These results strongly suggest that intradermal immu- tected by ELISPOT, frequencies of myeloid-derived immune reactions. Further clinical studies with serious adverse events (AE) observed in only 2 out of nization with self-adjuvanting mRNA vaccines consti- suppressor cells (MDSC), regulatory T-cells (Treg) MGN1601 are on their way. 44 patients. Immune monitoring demonstrated antigen tutes a safe, flexible and highly immunogenic, novel and other immune cell populations analysed by (ag)-specific T- and/or B-cell responses against at least vaccination approach able to induce antigen-specific flow cytometry. Additionally cytokines and anti- one antigen in 79% of the evaluable patients. Impor- humoral and cellular immune responses in the major- tumor cell antibodies were analysed. Radiological tantly, 63% of responders reacted against more than ity of PCa as well as NSCLC patients. efficacy data were evaluated according to RECIST one antigen. Anon-significant increase of B-cell fre216 1 Kerstin Kapp , Ekaterina Weith , Steffen Weikert , Viktor Gruenwald , Ingo G. H. Schmidt4 1 1 1 5 Wolf , Manuel Schmidt , Matthias Schroff , Marina Tschaika , Burghardt Wittig 1.1 and immune related Response Criteria (irRC). 217 164 | Therapeutic Vaccination 165 | Therapeutic Vaccination Long Peptides Complexed with A Novel Delivery Sytem CHP Nanogel Leads to the Improved Vaccine-induced Specific Immune Responses with CpG oligo DNA or poly-I:C RNA Preliminary results of a triple peptide escalating dose vaccination Phase I/II clinical trial as consolidation treatment in women affected by ovarian cancer 1, 3 1, 3 1, 3 1 4 1 Naozumi Harada , Daisuke Muraoka , Tae Hayashi , Koji Yoshimi , Shin-ichi Sawada , 4 1, 2 Kazunari Akiyoshi and Hiroshi Shiku 1 Department of Cancer Vaccine and Mie University Graduate School of Medicine, Mie, Japan 2 Departments of Immuno-Gene Therapy, Mie University Graduate School of Medicine, Mie, Japan 3 Basic and Preclinical Research Department, ImmunoFrontier, Inc., Tokyo, Japan 4 Department of Polymer Chemistry, Kyoto University Graduate School of Technology, Kyoto, Japan Targeted delivery of vaccine antigens such as pep- 2 1 CHP nanogel, the long peptides were promptly in- 1 Department of Experimental Medicine, University Sapienza, Rome, Italy 2 Department of Gynaecology, Obstetrics and Urology, University Sapienza, Rome, Italy Ovarian cancer remains one of the most lethal 1 at 3 months from the sixth dose. Results revealed tides or proteins to lymph nodes could be an effec- corporated to the significant proportion (approx. 10 malignancies in developed countries and recent- the vaccine to be safe and feasible in ovarian cancer tive strategy to potentiate the immunogenicity and to 55%) of CD11c dendritic cells or CD11b mac- ly no improvement in disease free survival (DFS) patients. Side effects accounts for ECOG scale 1-2 efficacy of therapeutic cancer vaccines. Synthetic rophages in the DLN, while the long peptides with and overall survival (OS) has been numbered for levels signs (itch, erythema and tumescence at IFA were not. Detailed analysis of the CHP nanogel conventional therapies . Immunotherapy could be injection site) and symptoms (fever, fatigue and + long peptides (~40 aa) containing both CD8 T-cell + + + 2 T-cell epitopes derived from human mediated-transportation of long peptides to the employed as consolidation treatment after standard malaise), for both the dose-administered. Good MAGE-A4 or murine mutated ERK2 antigens were DLN suggested that the transportation involved a therapies in patients in which disease and immune compliance was found to vaccine schedule in all complexed with a nanogel formed by self-aggrega- cell-independent mechanism in part. suppression is minimal. Furthermore, epitope patients enrolled. Secondary endpoints results re- tion of cholesteryl hydrophobized pullulan (CHP). These results indicate that an antigen delivery spread and new adjutants have been found to sig- vealed a 3 years 50% (3/6 patients) DFS and a 83% Either the long peptide/CHP nanogel complex or system of CHP nanogel, termed “immunotrans- nificantly increase the efficacy of novel immuno- (5/6 patients) Os in FIGO stages IIIc-IV ovarian the long peptide admixed with incomplete Fruend’s porter” by efficiently transporting vaccine peptides therapic strategies. cancer patients (60%; 6/10 patients). Moreover, adjuvant (IFA) was injected subcutaneously to to the DLN, is critical for effective cancer vaccines. This Phase I/II study aimed to improve vaccine immunological and clinical correlation analysis re- potency and enhance immune response of two vealed a significant increased IFNγ CD8 specific CD8 T-cells and CD4 T-cells was comparatively mucins (MUC-1 and CEA) and Erb-B2 tumour asso- T-cells production along with vaccination steps measured. Induction of both specific T-cells was ciated antigens (TAAs), with the co-administration (χ =6.67; p<0.009) in the subgroup of patients who at marginal levels in two groups. However, when of a new adjuvant combination: Montanide ISA51 did not recur vs. controls (mean follow up: 845.1 both vaccine groups were co-administered with plus GM-CSF. Keyhole Limpet Hemocyanin (KLH) days; range 55-1523). Toll-like receptor (TLR) agonist such as CpG oligo was adopted as immunological tracker. The highest number of vaccine induced specific DNA or poly-I:C RNA, T-cell activities became more Ten disease-free HLA-A2 aplotype high-risk serous CD8 cells were found at the end of the 6 doses prominent only in those with the long peptide/CHP advanced stage ovarian cancer patients underwent although high levels of T-cells could be also re- nanogel. The inhibitory effect of vaccination on the a two-groups safety clinical trial vaccination pro- induced by the recall boost. A significantly higher in vivo growth of tumors expressing targeted anti- tocol at “Sapienza” University of Rome from 2007 specific immune response was observed in the gens was also greater in the mice immunized with to 2010. CEA, Erb-B2 and MUC1 expression rates group B. the long peptide/CHP nanogel than those with the on primary tumours were 40%, 30% and 100%, re- long peptide/IFA. spectively. Group A (8 patients) received 100μg of 1. Jemal A. CA Cancer J Clin. 2009;59:225. Capability of CHP nanogel to transport subcutane- each peptide per dose accordingly to the immuno- 2. Pecorelli S. J Clin Oncol. 2009;27:4642. ously injected long peptides to the draining lymph histochemically antigen expression, whereas Group node (DLN) was evaluated. Incorporation of the B (2 patients) was vaccinated with all the peptide fluorescently labeled long peptides into the anti- regardless TAAs expression at the dose of 500μg gen-presenting cells in the DLN was analyzed by each. Vaccination schedule included 6 consecutive flow cytometry. As a result, when complexed with peptide vaccine administrations and a recall dose and CD4 BALB/c mice, and the induction of peptide-specific + 218 1 Valeria Visconti , Hassan Rahimi Koshkaki , Morena Antonilli , Chiara Napoletano , 2 1 2 1 1 Milena Pernice , Giacomo Barchiesi , Ilary Ruscito , Ilaria Grazia Zizzari , Aurelia Rughetti , 2 2 1 Filippo Bellati , Pierluigi Benedetti Panici , Marianna Nuti . + + 2 + 219 166 | Therapeutic Vaccination 167 | Therapeutic Vaccination Immune responses against frameshift antigens in microsatellite unstable colorectal cancers Sipuleucel-T product characterization across different disease states of prostate cancer 1 1 1 2 1 2 3 1 1 Miriam Reuschenbach , Matthias Kloor , Kathrin Bauer , Reza Rafiyan , Salah-Eddin Al 2 2 2 1 Batran , Julia Karbach , Elke Jäger , Magnus von Knebel Doeberitz Johnna Wesley , David Quinn , Celestia Higano , Heather Haynes , Frances Stewart , 1 1 1 Christian Poehlein , James Trager , Nadeem Sheikh 1 Department of Applied Tumor Biology, Institute of Pathology, University Hospital Heidelberg 1 Dendreon, Seattle, WA 98101, USA Hämatologie-Onkologie, Krankenhaus Nordwest, Frankfurt, Germany 2 Norris Comprehensive Cancer Center, University of Southern California, Los Angeles, CA 90089, USA 3 School of Medicine, University of Washington, Seattle, WA 98105, USA 2 220 Colorectal cancer is a heterogeneous tumor type. established as potent tumor antigens. Moreover, we Background: Sipuleucel-T is an autologous cellu- ic or minimally symptomatic mCRPC: 28.7, mCRPC: Whereas the majority of colorectal cancers show could show that FSPs are capable of inducing spon- lar immunotherapy approved for the treatment of 21.8; p<0.0001 (Joncheere-Terpstra test)). During chromosomal instability, a subset of about 15% of taneous cellular and humoral immune responses asymptomatic or minimally symptomatic metastat- manufacture of the product, lymphocyte activa- colorectal cancers (CRC) have a deficient DNA mis- in patients with MSI-H CRC. Interestingly, cellular ic castrate resistant prostate cancer (mCRPC). In tion markers and cytokines consistently showed match repair (MMR) system and accumulate small and humoral immune responses against FSPs can the Phase 3 mCRPC trials, antigen presenting cell enhanced expression during the second and third mutations at repetitive DNA sequences, a pheno- be detected not only in patients with MSI-H CRC, (APC) activation in sipuleucel-T correlated with treatments in all disease states. The lymphocyte ac- type termed high level microsatellite instability but also in healthy Lynch syndrome mutation car- overall survival. Here product characteristics of tivation and cytokine profiles were similar between (MSI-H). MSI-H cancers are particularly charac- riers without clinically manifest tumors. sipuleucel-T were compared in patients (pts) from early and later disease state pts. teristic for individuals with the inherited HNPCC MMR deficiency-induced FSP antigens therefore trials in the neoadjuvant (n=42), asymptomatic Conclusions: While cellular composition varied (hereditary non-polyposis colorectal cancer) or represent promising target structures for therapeu- or minimally symptomatic mCRPC (n=341), and with disease state, manufacture of sipuleucel-T ac- Lynch syndrome, which is caused by germline mu- tic vaccination of MSI-H CRC patients. mCRPC (n=104) disease states. tivated APCs in both early and late disease states of tations of the MMR genes. Mutation carriers have Recently a phase I/IIa peptide vaccination trial has Methods: Sipuleucel-T comprises 3 treatments ap- prostate cancer, and generated similar T and B cell a high lifetime risk for the development of MSI-H been initiated to evaluate the safety and immuno- proximately 2 wks apart. Cellular composition and activation and cytokine production profiles consist- cancers. Dense infiltration with lymphocytes is genicity of three FSP antigens upon administration APC activation (CD54 upregulation) were evalu- ent with immunological prime-boost. APC activa- commonly observed in MSI-H CRC lesions. The to patients with UICC stage III or IV MSI-H CRC. If ated in all courses of sipuleucel-T, and cumula- tion tended to be more robust in earlier disease pronounced immune responses typical of MSI-H vaccination with FSPs turns out to be well tolerated tive CD54 upregulation was calculated for each states. CRC lesions may be explained by the generation and leads to the induction of effector T-cell immune patient. In some studies, cytokines were assayed of defined MMR deficiency-induced antigens. MMR responses, FSP vaccination might be considered as from culture supernatants and T-cell and B cell ac- deficiency causes insertion or deletion mutations at a novel approach for tumor prevention in Lynch tivation markers were assessed by flow cytometry coding microsatellites, which may lead to shifts of syndrome mutation carriers. during manufacture. the translational reading frame and to the genera- Results: Baseline demographics were generally tion of MMR deficiency-related frameshift peptides representative of each disease state; neoadjuvant (FSPs). pts were younger with less disease burden; mCRPC Using the resources of human genome databases pts had the highest disease burden and more fre- and a bioinformatics-based approach, we predicted quent prior chemotherapy. While neoadjuvant pts relevant target genes, which were then screened for had greater levels of T-cells, the patterns of APC mutations in a large set of MSI-H CRC specimens. activation were similar among all trials, with in- FSP sequences resulting from mutations at the most creased CD54 upregulation at the second and third frequently mutated coding microsatellite sequenc- treatment. The trend for cumulative fold increase es were then predicted and synthesized in vitro. in CD54 upregulation was significantly greater in Thirteen FSP antigens were evaluated in vitro and earlier disease pts (neoadjuvant: 35.5, asymptomat221 168 | Therapeutic Vaccination 169 | Therapeutic Vaccination Construction of DNA vaccines expressing the novel tumor antigen neuroplastin: protective efficacy against mammary adenocarcinoma in immunized mice Dendritic-tumor cell hybrids in therapeutic vaccination against advanced neuroblastoma 1 1 2 2 3 1 2 2 A. Tiptiri-Kourpeti , E. Poimenidis , P. Ypsilantis , C. Simopoulos , V. Schirrmacher 1 & K. Chlichlia Patrícia C. Bergami-Santos , Lilian Cristofani , Vicente Odone Filho , 1 José Alexandre M. Barbuto 1 Laboratory of Immunobiology, Department of Molecular Biology and Genetics, Democritus University of Thrace, 68100 Alexandroupolis, Greece 1 Department of Immunology, Institute of Biomedical Sciences, University of São Paulo, SP, Brazil 2 Laboratory of Experimental Surgery and Surgical Research, Medical School, Democritus University of Thrace, 68100 Alexandroupolis, Greece 2 Department of Pediatric Oncology, Faculty of Medicine, University of São Paulo, SP, Brazil Email: [email protected] 222 DNA vaccination targeting tumor antigens rep- structs for two subsequent times resulted in strong Neuroblastoma is the most common intra-abdomi- and stored for use in vaccine preparation. Of all resents an attractive technology to induce strong neuroplastin-specific antibody responses in sera nal tumor in children and, depending on partially patients, 17 patients already received the vaccina- antigen-specific immune responses as well as pro- from immunized mice, as evidenced by indirect established biological criteria, may have an ag- tion. Nine patients received the treatment after au- tective efficacy against a variety of tumors. Neuro- ELISA using recombinant neuroplastin as antigen gressive behavior and poor response to therapy. tologous bone marrow transplantation (as included plastin (NPTN) was recently identified as a poten- and by immunofluorescence analysis. In addi- For these cases, new therapeutic strategies are still in the Brazilian neuroblastoma treatment protocol tial tumor antigen using proteomic identification of tion, immunization studies were performed using needed. Monocyte-derived dendritic cells (Mo- NEURO-X-2008). Clinical responses ranged from affinity selected tumor proteins with a recombinant a syngeneic experimental breast cancer model DCs) can be a very powerful tool for the devel- complete clinical remission to no response. The variable heavy chain antibody. NPTN was found to in mice. BALB/c mice were immunized with the opment of immunotherapeutic strategies against average number of doses received is 3.3 (one dose/ be highly expressed in the majority of metastat- DNA vaccine constructs expressing neuroplastin cancer. However, Mo-DCs from cancer patients month) and no significant adverse side effects were ic breast carcinomas and was shown to promote for three subsequent times with an interval of 8-10 present a series of phenotypic and functional noted. Thus, the further characterization of the re- breast tumor growth and metastasis if aberrantly days and challenged subcutaneously with synge- changes that impair their potential to induce ef- sponses induced by this treatment could establish expressed. Therefore, we selected this antigen to neic mammary adenocarcinoma cells. One week fective anti-tumor responses. To circumvent these this approach as an effective treatment modality for design vaccine constructs aiming to be effective later mice were killed and the tumor volume as deficits, Mo-DCs from healthy donors can be fused patients with neuroblastoma. against mammary adenocarcinoma. We identified well as tumor incidence was recorded. The majority to patients’ tumor cells and, after irradiation, in- the expression of NPTN gene in two murine adeno- of pre- immunized mice showed no tumor growth jected back into the patients to initiate anti-tumor carcinoma cell lines and the complete cDNA se- as opposed to the group of non-immunized mice or responses. Fused cells maintain the expression quence was cloned directly in mammalian expres- mice immunized with the empty vector. Our aim is of both tumor and Mo-DC markers for at least 7 sion vectors under the control of the CMV promoter. to investigate and analyze further humoral and cel- days after fusion. Furthermore, the heterokaryons Two vaccine constructs were further examined, one lular NPTN-specific anti-tumor immune responses seem to survive and proliferate better than non- of them encoding full-length NPTN, the other one following different immunization strategies. Thus, fused cells (both tumor and DCs) in culture. When encoding the cDNA sequence of NPTN in fusion we demonstrated that prophylactic immunization fused cells were utilized to stimulate patients’ lym- with the EGFP gene. Expression of NPTN was de- with NPTN encoding DNA can induce protective phocytes, they were able to induce the production tected in both cases in vitro in NPTN-negative cell immunity in mice against mammary adenocarci- of a distinct cytokine pattern, characterized by a lines transfected with the respective vaccine con- noma and validated neuroplastin as a good target higher IFN-gamma and a lower IL-4 production. structs, as evidenced by Real-time PCR with NPTN for cancer immunotherapy studies. Interestingly, these fused cells induced a low pro- specific primers as well as Western blotting with liferative response on allogeneic lymphocytes. We a neuroplastin-specific monoclonal antibody. Evi- report further, the preliminary results of a protocol dence was also provided for in vivo expression 48 using this hybrid dendritic-tumor cell vaccination hours following intramuscular administration of in patients with histological diagnosis of neuro- the NPTN-expressing constructs. Moreover, intra blastoma. Tumor samples from 63 patients were ear pinna immunization of the DNA vaccine con- obtained, processed into single cell suspensions 223 170 | Therapeutic Vaccination 171 | Therapeutic Vaccination Active Immunotherapy of Cancer with PROSTVAC® and MVABN®-HER2 Demonstrate Potent Preclinical Anti-tumor Efficacy Development of a DC-based therapeutic vaccine for AML patients: Charakterization of GMP-grade TLR-agonist matured 3-day DCs expressing the leukemia-associated antigens WT1 and PRAME Stefanie J. Mandl, Ryan B. Rountree, Joseph Cote, Tracy dela Cruz, Thierry Giffon, John R. Lombardo, Aung Oo, Erica Trent, Reiner Laus, Alain Delcayre Department of Research and Development, BN ImmunoTherapeutics, Mountain View, CA, USA S.J. Mandl and R.B. Rountree contributed equally to this work 224 *,1 *,2 *,3 2 Christiane Geiger , Barbara Beck , Iris Bigalke , Felix S. Lichtenegger , Mirjam H.M. 4 5 1, 3 2 Heemskerk , Stein Saboe-Larssen , Dolores J. Schendel , Marion Subklewe 1 Institute of Molecular Immunology and 3GMP Unit, Helmholtz Zentrum München, Munich, Germany 2 Department of Internal Medicine III, University of Munich, Campus Großhadern, Munich, Germany 4 Department of Hematology, Leiden University Medical Center, Leiden, Netherlands 5 Department of Cellular Therapy, Oslo University Hospital, Oslo, Norway * Authors contributed equally to this work BN ImmunoTherapeutics (BNIT) specializes in de- mal growth factor receptor 2 (HER-2) that includes We have designed a new generation of dendritic lated cells – was analyzed in a so-called signal-3 veloping novel active immunotherapies for cancer. two universal T-cell epitopes from tetanus toxin cells (DCs) optimized for the use in cell-based im- assay. We could show that antigen expression and These therapies use recombinant poxviruses engi- to facilitate the induction of effective immune re- munotherapy of cancer patients. Our goal was to cryopreservation did not alter this capacity. neered to express tumor associated antigens (TAAs), sponses against HER-2. Our Phase I clinical results tailor these DCs to be used for vaccination in acute Furthermore, cryopreserved DCs expressing the with the intent of generating effective immune re- show that HER-2-specific antibody and T-cell re- myeloid leukemia (AML) patients with a high risk different antigens also displayed a high capacity sponses against the patients’ cancer. PROSTVAC® sponses were induced in patients treated with of relapse after intense induction/consolidation both for reactivation of antigen-specific pre-primed is a candidate product for the treatment of prostate MVA-BN®-HER2. therapy in order to eradicate minimal residual effector cells and for priming of naïve T-cells in cancer for which a global Phase III clinical trial Here we show preclinical data demonstrating an- disease (MRD). vitro, showing proper processing and presentation (PROSPECT) was recently initiated. This product ti-tumor efficacy and TAA-specific antibody and We have developed a three-day manufacturing of the introduced antigens. These studies demon- is composed of two different viral vectors derived T-cell responses for both immunotherapies. Anti- protocol using a cytokine cocktail containing a strate that our manufacturing protocol yields im- from a recombinant vaccinia virus (PROSTVAC®-V) tumor activity was characterized by the induction synthetic TLR7/8-agonist for generation of mono- proved DCs with a high potential to initiate long- and a recombinant fowlpox virus (PROSTVAC®-F). of Th1-biased antigen-specific immune responses cyte-derived mature DCs (mDCs) with improved lasting anti-leukemic responses in patients with Both vectors contain transgenes encoding prostate- in preclinical HER-2-specific tumor models. Tumor immunogenicity. For induction of a specific T-cell- AML. specific antigen (PSA) and a triad of costimulatory efficacy was accompanied by increased infiltration based anti-AML response against residual tumor molecules (B7-1, ICAM-1, and LFA-3), designated as of tumors with highly activated, HER-2-specific cells, our mDCs are loaded with RNA encoding the TRICOM™. Patients are immunized using a prime- T-cells, and a decrease in the frequency of regula- leukemia-associated antigens WT1 and PRAME. boost strategy consisting of an initial treatment tory T-cells (Treg). Likewise, treatment with PROS- Additionally, DCs transfected with RNA encoding with PROSTVAC®-V followed by repeated boosting TVAC® results in strong efficacy in a mouse model CMV-pp65 will be included as a surrogate antigen. with PROSTVAC®-F to maximize the immune re- of prostate cancer. Furthermore, the data illustrate In this study, we present the careful evaluation of sponses against the PSA tumor-antigen. the advantage of the prime-boost strategy in induc- our 3d mDCs generated from healthy donors follow- Another product in development, MVA-BN®-HER2, ing more robust immune responses against PSA. ing RNA electroporation and cryopreservation, en- is in Phase I clinical trials for the treatment of HER- Overall, these studies demonstrate the potent activ- suring a fully functional phenotype of the autolo- 2-positive breast cancer. This immunotherapy is ity of poxviral immunotherapies in animal models gous vaccine formulation. Our studies demonstrate derived from a clonal isolate of the highly attenu- of cancer, which supports the ongoing clinical de- a high and controllable expression of all three anti- ated Modified Vaccinia Ankara (MVA) virus stock velopment of PROSTVAC® and MVA-BN®-HER2. gens following RNA loading, which was also stably known as MVA-BN®. The attenuated phenotype of detected after cryopreservation. Additionally, ex- MVA-BN® provides additional safety when given to pression of common DC surface markers was not immunocompromised patients, while providing a altered by these processing steps. To ensure func- strong adjuvant activity to transgenic antigens that tional integrity of our DCs, the ability to secrete triggers adaptive and innate immunity. MVA-BN®- the critical cytokine IL12p70 upon T-cell encounter HER2 expresses a modified form of human epider- – an important characteristic of our non-manipu225 172 | Therapeutic Vaccination 173 | Therapeutic Vaccination Dendritic cell vaccine after induction chemotherapy in patient with metastatic melanoma: prospective randomized single- institution trial A Novel Minigene Scaffold for Cancer Vaccine Applications 1 2 1 2 1, 2 3, 4 3, 4 5 3 Igor Samoylenko , Tatiana Zabotina , Irina Mikhailova , Olga Korotkova , Georgy Chkadua , 4 4 1 1 Vladimir Tazaev , Elena Ogorodnikova , Kirill Baryshnikov and Lev Demidov 1 Takis, Rome, Italy 2 BIOGEM, scarl, via Camporeale, Ariano Irpino (Av), Italy 1 Department of tumor biotherapy, N.N. Blokhin Russian Cancer Research Center, Moscow, Russia 3 2 Laboratory of clinical immunology, N.N. Blokhin Russian Cancer Research Center, Moscow, Russia Merck Research Laboratories, Rahway, NJ, USA 4 3 Laboratory of experimental diagnostics and tumor biotherapy, N.N. Blokhin Russian Cancer Research Center, Moscow, Russia Merck Research Laboratories, West Point, PA, USA 5 Okairos, Pomezia, Italy 6 Idera Pharmaceuticals, Cambridge, MA, USA; 7 IRCCS Istituto Nazionale Tumori Fondazione G. Pascale, Napoli, Italy 4 Department of blood transfusion, N.N. Blokhin Russian Cancer Research Center, Moscow, Russia Introduction: Despite the dramatic change in treatment Results: From March 2010 to March 2012 95 patients approaches in patients with metastatic melanoma and were included in the study. After 2 cycles of chemo in Cytotoxic T lymphocytes (CTL) represent a key HLA-A0201 double transgenic (HHD) mice, the implementation of new drugs during last few years 32 patients disease progression was detected and they component of the immune system and play a crucial latter being immunologically tolerant to CEA. The the overall prognosis for survival remains poor. Rapid were excluded from the study. Of the 63 patients in 3 role in tumor surveillance. CTLs recognize short components utilized to construct the minigenes disease progression often does not allow to register patients effect was not assessed due to patient death peptides derived from intracellularly synthesized were: 1) epitopes selected on predicted binding to any effects of immunotherapy. We decided to conduct due to complications (1) and due to lost of follow up proteins and expressed on surface of targeT-cells in HLA-A0201, uniqueness in the human proteome a vaccine trial in metastatic melanoma patients with a (2). Twenty one patients are now under evaluation and complex with MHC Class I (MHC-I) molecules. CTL and increased likelihood of natural processing; 2) stable disease course and to compare safety and effi- were not included in this interim analysis. Of 39 pa- epitopes have been identified in multiple clinically helper CD4 epitopes; 3) epitope processing mecha- cacy of the standard polychemotherapy with dendritic tients 19 was randomized to the DC-group and 20 to relevant tumor-associated antigens (TAA). nisms; 4) fusion with immunoenhancing moieties. cell-based autologous vaccine. the chemo group. The 6-month PFS was 52,6% in the Genetic vaccines utilize viral or plasmid DNA vectors First, we show that minigenes delivered via Aim: Primary end point was 6-month progression free DC group and 15% in the chemo (RR = 0,56; 95% CI to deliver in vivo an expression cassette carrying the DNA-EP were more immunogenic than genetic survival, secondary end points included overall sur- 0,34 to 0,97, p=0,03). Median PFS was 7,38 mo in the coding region of the antigen of choice in the subject vectors encoding the full-length protein or peptides vival, progression free survival, safety, immunological DC group and 4,9 mo in the chemo group (95% CI 6,3 to to be vaccinated. Immunizations with minigenes injected subcutaneously. In particular, we select an parameters, and quality of life assessed by QLQ-C30 8,5 and 3,3 to 6,4 respectively, not significant). Median containing T-cell epitopes may have several advan- optimal minigene scaffold comprising the follow- questionnaire. OS was 13,4 mo in the chemo group and was not tages compared to full length proteins. Proteins may ing elements: human tissue plasminogen activator Patients and methods: Inclusion criteria were morpho- reached in the DC group. The most common grade 3-4 have unknown and potentially toxic biological ac- (TPA) signal, T-cell epitopes and E. Coli enterotoxin logically proven metastatic melanoma, ECOG status adverse events were neutropenia (12 (60%) in chemo tivity while minigenes deliver only immunologically B subunit, wherein epitopes are connected by furin 0-2, LDH level <= 1,5N, RECIST-evaluable lesions, group.0 in DC group), thrombocytopenia (3 (15%) and relevant genetic information. Immunization with a sensitive linkers. This family of minigenes was skin or soft tissues lesions measurable by ultrasound. 1(5%)), febrile neutropenia (8 (20%) and 0), peripheral protein usually leads to an immune response that is also more immunogenic than a second class where Any adjuvant treatment and single line of the meta- sensor neuropathy (4 (20%) and 0), flu-like symptoms narrowly focused on a few dominant epitopes, while epitope processing is proteasome-dependent. The static melanoma treatment were allowed. Patients with (2 (10%) and 8 (42%)), tumor pain (2 (10%) and 3(16%) minigenes can induce significant immune response minigenes were able to break immune tolerance brain metastasis were excluded. All patients scheduled respectively). Scores of the QoL were better in the DC to multiple epitopes simultaneously. Minigenes are in CEA/HLA-A0201 mice and induce a strong to receive 2 cycles of the polychemotherapy with cis- group after the first cycle of the therapy than in chemo short and compatible wth commonly used delivery immune response against all included epitopes, in- group at the corresponding time point. Immunological vectors including plasmid DNA. Despite extensive dependently of their relative positions within the 2 2 platin 20 mg/m day 1-4; vinblastin 2 mg/m day 1-4 2 + hi + and DTIC 800 mg/m day 1, cycle 28 days. On day 14 of testing suggested that population CD4 CD25 CD127+ studies with minigenes having different properties, scaffold. These observations were extended also to second cycle assessment was predefined. Patients who (Tregs) did not predict therapy success and did not sig- the provision of an optimal minigene that maximizes other tumor antigens, such as HER2/neu and tel- progressed after two cycles of the chemo were excluded nificantly change during the treatment. epitope-specific immune responses remains elusive. omerase (TERT). from the study. All other patients were randomized to Conclusion: Dendritic cell vaccine immunotherapy The objective of this study was to identify an optimal In conclusion, here we describe a universal strat- 3-d cycle of the chemo followed by one vaccination may bean less toxic option for maintenance therapy in scaffold for minigene construction. To evaluate egy to design minigenes delivered via DNA-EP and cycle or three cycles of the chemo. Vaccination schedule patients with metastatic melanoma with stable disease the immunogenicity in an appropriate preclinical based on predicted and/or experimentally identified consisted of subcutaneous injections of dendritic cell course. Final results will be published soon. Additional model, we generated a set of minigenes contain- epitopes. Further studies to evaluate this approach in vaccine with 14 days intervals. Assessments were per- trials are needed to compare such a vaccine with best ing epitopes selected within the Carcinoembryonic combination with other modalities, such as peptide formed every 5 vaccine injections (1 cycle, 10 wks) in supportive care or placebo. Antigen (CEA) and utilized muscle DNA electropo- vaccination or other genetic vectors are warranted. DC-group and every 2 cycles (10 wks) in chemo group. 226 6 Luigi Aurisicchio , Arthur Fridman , Ansu Bagchi , Elisa Scarselli , Nicola La Monica , 7 Gennaro Ciliberto , ration (DNA-EP) to vaccinate HLA-A0201 and CEA/ 227 174 | Therapeutic Vaccination 175 | Therapeutic Vaccination Generation of immunogenic MUC1 glycopeptides by DCs primed with microvesicle bound MUC1 tumor associated glycoprotein, but not with the soluble MUC1 Tumor immunity conferred by mRNA-transfected dendritic cells expressing bi-functional polypeptides which couple MHC-I presentation to dendritic cell activation 1 1 1 2 Hassan Rahimi , Chiara Napoletano , Federico Battisti , Francesca Belleudi , Ilaria Ziz1 1 3 4 2 zari , Valeria Visconti , Filippo Bellati , Hans Wandall , Maria Rosaria Torrisi , Marianna 1 1 Nuti , Aurelia Rughetti 1 Department of Experimental Medicine, “Sapienza” University of Rome, Rome, Italy 2 Department of Clinical and Molecular Medicine, “Sapienza” University of Rome, Rome, Italy 3 Department of Gynecology and Obstetrics, “Sapienza” University of Rome, Rome, Italy 4 Copenhagen Center for Glycomics, Department of Cellular and Molecular Medicine, University of Copenhagen, Copenhagen N, Denmark 2, 3 1 2, 3 1 & Lea Eisenbach 1 Department of Immunology, Weizmann Institute of Science, Rehovot, Israel 2 Laboratory of Immunology, MIGAL, Kiryat Shmona, Israel 3 Department of Biotechnology, Tel-Hai College, Upper Galilee, Israel Changes in glycosylation that occur during tumor Two distinct MUC1 immunogens were employed: Ex-vivo propagated, antigen-loaded dendritic cells MHC-I peptide presentation to TLR-mediated sign- transformation can profoundly affect the inter- a recombinant soluble MUC1 produced by CHO-K1 (DCs) are widely explored as potential cancer vac- aling and offer a safe, economical and highly ver- actions between tumor cells and microenviron- cells (ST-MUC1) and MUC1 membrane bound cines, but the limited clinical efficacy achieved so satile modality for a novel category of genetic CTL- ment with strong impact on the overall anti-tumor (MUC1-MV; microvesicles shed by the MUC1-trans- far calls for novel approaches. Major obstacles are inducing vaccines. immune response. fected DG75 cell line). Both MUC1 immunogens the requirement for the induction of DC matura- MUC1 is one of the most relevant tumor associ- were enriched of ST carbohydrate moieties as de- tion by adjuvants and the short duration of antigen ated glycoprotein expressed by epithelial cancer. tected by MALDI-TOF FS and by ELISA, employing presentation. Recently we have generated a novel Several tumor associated glycoforms of MUC1 are anti-MUC1 glycoform specific antibodies (MoAbs). genetic platform based on membrane-anchored expressed by tumor cells and distinct effects on the DCs were pulsed with ST-MUC1 and MUC1-MV derivative of β2 microglobulin (β2m) linked to an immune system have been described. In particu- and reactivity of the distinct anti-MUC1 MoAbs antigenic peptide of choice at its N-terminus and lar the sialylated MUC1, carrying ST moieties (ST- was analyzed by immunofluorescence microscopy to the cytosolic domain of TLR4 at the C-termi- MUC1) exerts inhibitory effects on DCs function, on single optical sections obtained by Apotome nus. Following mRNA transfection the resulting while the MUC1 carrying N-AcetilGalactosamine module. In DCs pulsed with the soluble ST-MUC1, polypeptides efficiently coupled peptide presenta- residues (Tn-MUC1) has shown to be immunogenic only reactivity of the MoAb recognizing the sia- tion to antigen-presenting cell activation. In the in mice and to significantly correlates with tumor lylated form of MUC1 could be detected. No reactiv- present work we evaluated the immunogenicity progression. The understanding of the intracellular ity was found for the MoAbs recognizing the T and of such constructs in mRNA-transfected murine processing of TAA-MUC1 glycoprotein and how im- immunogenic Tn-MUC1 glycoform. In DCs pulsed bone marrow (BM)-derived DCs. We show that the munogenic glycoepitopes can be generated is rel- with the ST-MUC1 membrane bound form, that is encoded peptide-β2m-TLR products are expressed evant for the design of DCs based vaccine targeting processed in HLAI and HLAII compartments, all at the cell surface up to 96 hours post transfec- MUC1 or other TAA-glycoproteins. the MoAb against distinct MUC1 glycoforms were tion, pair with endogenous heavy chains, prompt We have previously shown that MUC1 undergoes reactive, indicating that MUC1 processing was ac- efficient peptide-specific T-cell recognition and to distinct processing pathways in DCs as soluble companied by deglycosylation, generating immu- confer a constitutively activated phenotype on molecule or bound to microvesicles. nogenic Tn-MUC1 glycoepitopes. Similar results the transfected cells. Ex-vivo mRNA-transfected The soluble molecule, independently by the glyco- were also obtained by biochemical analysis of cell mouse BM-DCs were markedly superior in-vivo sylation profile, appears to be blocked in the pre- fraction of MUC1 pulsed DCs. to peptide-loaded, LPS-activated DCs in inducing endosomal compartment, while the membrane These results strongly suggest that the antigen for- peptide-specific CTLs. This superiority was evident bound form is processed in HLAII and HLAI com- mulation is of crucial importance both for cross- in the ability to protect mice from tumor generation partments. In this study we investigated the effect processing and both for the generation of immuno- following the administration of B16 melanoma cells of antigen processing on carbohydrate moieties in genic glycoepitope array when designing DC based and to inhibit the development of pre-established the generation of Tn-MUC1 glycoepitopes that have vaccine. B16 tumors. Our results provide evidence that the been shown to be immunogenic. 228 1, 2 Gal Cafri , Alon Margalit , Esther Tzehoval , Gideon Gross product of a single recombinant gene can couple 229 176 | Therapeutic Vaccination 177 | Therapeutic Vaccination A First In Man Phase I Trial Of IMA950 (A Novel Multi-Peptide Vaccine) Plus GM-CSF In Patients With Newly Diagnosed Glioblastoma – Design And Preliminary Results of a Cancer Research UK Study Induction of anti tumor responses against malignant melanoma via antigen targeting in vivo 2 3 4 5 Roy Rampling, Allan James , Paul Mulholland , Sharon Peoples , Omar Al-Salihi , Chris 6 7 8 8 9 9 Twelves , Sarah Jefferies , Oliver Schoor , Norbert Hilf , Jane Peters , Sarah Halford , Lesley 9 9 8 McGuigan , James Ritchie , Harpreet Singh-Jasuja 1 1 1 2 Kirsten Neubert , Anna-Maria Staedtler , Lukas Heger Veit Buchholz , 1 3 1 Gordon F. Heidkamp , Falk Nimmerjahn , Diana Dudziak 1 Department of Dermatology, Laboratory of Dendritic Cell Biology, Friedrich-Alexander Universität Erlangen-Nuremberg, University Hospital of Erlangen, Erlangen, Germany Beatson WOS Cancer Centre, Glasgow, UK 2 Department of Medical Microbiology and Hygiene, TU-München, Munich, Germany 3 UCL Cancer Institute, London, UK 3 4 Oncology Department, Western General Hospital, Edinburgh, UK Chair of Genetics, University of Erlangen-Nuremberg, Laboratory of Experimental Immunology and Immunotherapy, Erlangen, Germany 5 Oncology Department, Southampton University Hospital, Southampton, UK 6 Oncology Department, St James University Hospital, Leeds, UK 7 Oncology Department, Addenbrookes Hospital, Cambridge, UK 8 immatics biotechnologies GmbH, Tubingen, Germany 9 Cancer Research UK Drug Development Office, London, United Kingdom 1 Department of Clinical Oncology, Glasgow University, Glasgow, UK 2 Background: Standard therapy for newly diag- of two cohorts with similar schedules. In Cohort Dendritic cells (DCs) as the most powerful antigen results show that antigen targeting of DCs might be nosed glioblastoma (NDGBM) comprises maximal 1 vaccination begins 7 to 14 days prior to initial presenting cells (APCs) gaining increasing thera- a future option for the induction of protective anti- safe tumour resection, followed by concomitant CRT; in Cohort 2 it begins a minimum of 7 days peutic significance. Because of their role as key tumor responses. chemoradiotherapy (CRT) and adjuvant temozo- post CRT and 28 days prior to adjuvant TMZ. Safety regulators for the coordination and balance of the lomide (TMZ). IMA950 is a novel multi-peptide is assessed according to NCI CTCAE Version 4.0. innate and acquired immune response they are GBM-specific vaccine that contains 11 HLA-bind- Immune response is determined by HLA-multim- good candidates to modulate the immune system ing tumour-associated peptides (TUMAPs), which er analysis of vaccine-induced T-cell response in activity in infection, cancer and autoimmunity. were identified on human leukocyte antigen (HLA) PBMC samples. Secondary objectives include ob- By using chimeric antigen carrying antibod- surface receptors in primary human GBM tissue, servation of any anti-tumour effects, measurement ies directed against the DC-subset specific C-type and one viral (HBV) marker peptide. The selected of pre-treatment regulatory T-cell levels and evalu- lectin and endocytosis receptors DCIR2 (33D1) and TUMAPs are designed to activate TUMAP-specific ation of the effect of steroid dose on observed T-cell DEC205, we are able to target antigens to CD11c CD8 + + - + CD8 cytotoxic and CD4 helper T lymphocytes, responses. Retrospective analysis of diffusion and or CD11c CD8 DCs in vivo, respectively. We have which then recognise cognate TUMAPs presented perfusion-weighted imaging is being performed to demonstrated that the type of T-cell response gener- by GBM tumour cells and effect a targeted immune explore possible vaccination effects. Patients will ated is dependent on the DC subset that presents the response. The primary objectives of the current also be followed up for overall survival. antigen in vivo. Here, we wanted to investigate if we study are to assess the safety, tolerability and im- Results: As of 29-Mar-12, 22 patients (11 in Cohort can induce a protective anti-melanoma response by munogenicity of IMA950 plus GM-CSF given along- 1 and 11 in Cohort 2) have been recruited. Eight- targeting DCs in naïve animals in vivo. For induc- side standard therapy in NDGBM. een remain alive. Related adverse events have been ing an efficient immune response antigen carrying Methods: Patients must be eligible for standard restricted to minor injection site reactions and a antibodies 33D1 or DEC205 were applied under im- treatment of GBM, and HLA-A*02 positive with single distant allergic rash. The first 6 patients munizing conditions. In the used murine melanoma no history of autoimmune disease. Vaccination have been fully analysed for immune response; mouse model and the used immunization protocol comprises fixed doses of IMA950 plus GM-CSF all reacted positive for HBV peptide. Five subjects mice showed a mixed TH1/TH2 mediated antibody injected intradermally at 11 time points over a have responded to at least one TUMAP, 3 of these response and a strongly prolonged survival with a 24 week period. Up to 45 patients with NDGBM to multiple TUMAPs. diminished tumor growth. Moreover, antigen target- will be entered. Three safety observation periods Conclusion: These results vindicate the study ing to both DC subsets induced an even better anti of 21 days were included after patients 1, 3 and 6 design and already give encouragement for further tumor response. Antigen targeting in a therapeutic had completed treatment and prior to opening to development of this vaccine. setting which is clinical more relevant induced a general recruitment. Patients are recruited into one 230 + + This project was partly supported by the German Research Foundation (DU548/1-1 and DU548/2-1), GIF (2177-1774.11/2007), Ria-Freifrau-von Fritsch Stiftung and BayGene. D.D. is a fellow of the ‘Förderkolleg’ of the Bavarian Academy of Sciences. delayed tumor growth and prolonged survival. Our 231 178 | Therapeutic Vaccination 179 | Therapeutic Vaccination Comparison of clinical grade polarized and standard matured dendritic cells for cancer immunotherapy Investigating the functionality of tumour-infiltrating lymphocytes induced by immunotherapy 1 2 1 2 1 Morten Hansen , Gertrud Hjortø , Özcan Met , Niels Bent Larsen , Mads Hald Andersen , 1 3 1, 4 Per thor Straten , Pawel Kalinski and Inge Marie Svane Elena Harden, Angelica Cazaly, Christian Ottensmeier and Stephen Thirdborough Faculty of Medicine, University of Southampton, Southampton, SO16 6YD, UK. 1 Center for Cancer Immune Therapy (CCIT), Department of Haematology, Copenhagen University Hospital, Herlev, Denmark 2 Department of Micro- and Nanotechnology, Technical University of Denmark, Lyngby, Denmark 3 Department of Surgery, Department of Immunology and Department of Infectious Diseases and Microbiology, University of Pittsburgh, Pittsburgh, PA 15213; and University of Pittsburgh Cancer Institute, Pittsburgh, PA, 15213, USA 4 Department of Oncology, Copenhagen University Hospital, Herlev, Denmark Monocyte-derived dendritic cells (DCs) employed equal to sDCs. mpDCs were intermediate between The TRAMP (transgenic adenocarcinoma of the which we have also found indications of immuno- for cancer immunotherapy are commonly matured standard and polarized DCs both in terms of IL-12 mouse prostate) mouse is a model of prostate suppression in TILs. by a standard maturation cocktail consisting of secretion and ability to migrate. However, strik- cancer. These mice express the large T antigen These results indicate that CD8 T-cells induced by inflammatory cytokines (TNF-α, IL-1β, IL-6) and ingly mpDCs expressed significantly more of the from SV40 under the control of a prostate-specific DNA vaccination are subject to local immunosup- prostaglandin E2. The major limitation of this cock- immune-inhibitory molecules PD-L1 and CD25 promoter, resulting in spontaneously occurring pression in the tumour microenvironment. Combi- tail is the lack of Toll-like receptor mediated activa- compared with standard DCs. Thus, despite their prostate carcinomas in males. We have used this national therapy with immune-modulating agents tion that in turn does not enable DCs to produce ability to produce some IL-12, they are likely not an model to study DNA vaccination as immunother- may be able to overcome this suppression and allow the third signal pro-inflammatory cytokine IL-12 optimal replacement of the current gold standard apy for cancer. CD8 T-cell mediated tumour destruction. This in- and subsequent polarize T-cells into type 1 effector for DC maturation. The DNA vaccine encodes tumour-derived epitopes formation will be crucial when planning the design cells that can be clonally expanded and generate fused to a domain from tetanus toxin (DOM). This of future DNA vaccine clinical trials. memory. Here, standard matured DCs were com- microbial sequence induces T-cell help in tandem pared with DCs matured with either of two type with the CD8 T-cells induced by the tumour-spe- 1 polarizing maturation cocktails namely “aDC1s” cific part of the vaccine. This pDOM-epitope design (TNF-α, IL-1β, IFN-γ, IFN-α, PolyI:C) and “mDCs” has been shown to break immunological tolerance (MPLA, IFN-γ) or a mixed cocktail – “mpDCs”, com- and produce anti-tumour immune responses that prising MPLA, IFN-γ and PGE2. Monocytes were ob- prolong patient survival. tained by elutriation of leukapheresis samples from While tumour growth in TRAMP mice was delayed six healthy donors and DCs were produced in large by DNA vaccination, it was still fatal. In order to in- scale with serum free CellGenix resembling clinical vestigate this further we have isolated T-cells from protocols. aDC1s and mDCs secreted >10 ng/ml of the blood and the tumour and tested their function- IL-12 after 48 hours of maturation and maintained ality. The DNA vaccine was able to induce CD8 secretion following 24 hours of re-stimulation with T-cell responses in mice with substantial tumour CD40L-expressing J558 cells. Furthermore, aDC1s load. Furthermore, greater numbers of tetramer- and mDCs were superior in their ability to polar- positive CD8 + 232 + + + + + T-cells were found in the tumour ize naïve CD4 T-cells into IFN-γ Th1 effector cells compared to the blood. However, despite the high but were less capable of CCL21-directed transwell proportion of tetramer-positive tumour-infiltrating migration compared with sDCs. This was likely lymphocytes (TILs), effector cytokine production due to a proportional increased ability to secrete amongst TILs was low. In addition, TILs expressed CCL19, mediating transient internalization of CCR7. the marker PD-1 which is associated with function- Upon 24 hours of re-culture in new medium, type al exhaustion. These findings are mirrored by pre- 1 polarized DCs re-gained their ability to migrate liminary data from immunotherapy trial patients in 233 180 | Therapeutic Vaccination Study of the involvement of the activity of oxygen free radicals in the development of colorectal cancer: chemo-preventive effect of an antioxidant SOD mimetic a Glisodin® Ouali Kheireddine, Baba-Ahmed Fedia, Trea Faouzia University of Annaba, Faculty of sciences, BP 12 El Hadjar Annaba 23000, Algeria Tumor Biology and Interaction with the Immune System This study was conducted to assess the effectiveness of supplementation of a vegetal SOD mimetic a Glisodin on the number of precancerous lesions of the aberrant crypt focus (ACF), and oxidative status (lipid peroxidation, the antioxidant defense system) in animal model with colorectal cancer induced chemically by azoxymethane. In fact, administration of azoxymetomhane (AOM) caused by the appearance of precancerous lesions of the colon revealed by the formation of aberrant crypt foci (ACF) are preneoplastic lesions. This cytological alteration colon goes along with increased lipid peroxidation (LPO) and a significant decrease in reduced glutathione (GSH), glutathione - S - transferase (GST), superoxide dismutase (SOD) and catalase (CAT), which are potential biomarkers of oxidative stress. Treatment of AOM rats by Glisodin has significantly strengthened antioxidant defense, showed an improvement in the activity of GST, SOD and CAT, and decreased lipid peroxidation. This effect had a positive impact on the number of aberrant crypt foci. Our results suggests both that the increase production of free radicals may be induced a formation of precancerous lesions and on the other hand, Glisodin can be used as an antiradical adjuvant with chemo-preventive against colon cancer. Keywords: AOM, Oxidative stress, Colorectal cancer, ACF, Rat 235 234 181 | Tumor Biology and Interaction with the Immune System 182 | Tumor Biology and Interaction with the Immune System The effects of ADAM10 and Neprilysin on tumor-induced release of IL-6 and IL-10 The Immunomodulatory Role of Endogenous Glucocorticoids in Ovarian Cancer Nuray Erin, Nilüfer Ekinci, Elie Cope, Ismat Khatri, Reg Gorczynski Ahmed Adel Seida , Sebastian Häusler , Claudia Heidbrink , Jörg Wischhusen Akdeniz University School of Medicine, Dept. Medical Pharmacology, SBAUM, Antalya and University Health Network, Toronto, ON 1 Department of Obstetrics and Gynecology, University of Würzburg, School of Medicine, Josef-Schneider-Street 4, 97080 Würzburg, Germany 2 Interdisciplinary Center for Clinical Research, Josef-Schneider-Street 2, 97080 Würzburg, Germany 236 1, 2 1, 2 1 1, 2 There are controversial findings regarding the role induced by 4THM cells but IL-10 secretion induced Background: Tumour-infiltrating myeloid-derived glucocorticoids by immune cells may contribute to of proteases in cancer progression. We previously by LPS was decreased markedly only in NEP-treat- suppressor cells (MDSC) or tumour-associated mac- the immune escape of ovarian cancer is now being found that expression of ADAM10, a member of ed samples. Similar changes were also observed in rophages (TAM) which are abundant in ovarian tested in PTEN matrix metalloprotease and disintegrin family, de- MLCs from control animals. Importantly, neither cancer show a high expression of the enzyme 11Be- which spontaneously develop ovarian cancer after creases in 4THM primary tumors which is a more ADAM10 nor NEP hydrolyzed either cytokine ta-Hydroxysteroid dehydrogenase I (11β-HSD1). intra-bursal injection of adenoviral Cre recom- metastatic subset of 4T1 murine breast carcinoma. under in vitro conditions. loxP/loxP ; loxP-Stop-loxP-kras G12D mice This enzyme is essential for the conversion of binase. The ongoing experiments involve adop- We have also reported that ADAM10 has similar biologically inactive cortisone into active cortisol tive transfer of glucocorticoid receptor knock out substrate specificity to Neprilysin (NEP), a pepti- which has been detected in ascitic fluid and tumour immune cells as well as pharmacological inhibition dase reported to regulate immune response as well exudates from ovarian cancer patients. Consider- of 11β-HSD1 which shall be combined with various as inhibit tumor growth. IL-10 and IL-6 may also ing that cortisol has strong suppressive effects on immune stimuli. In a first functional in vivo assay, enhance tumor growth and metastasis, the former all kinds of immune cells, we hypothesize that the the adoptive transfer of glucocorticoid receptor-de- through its immunosuppressive effects, the latter activation of endogenous glucocorticoids by MDSC ficient T-cells led to increased immune cell infiltra- by inducing excessive inflammation. How these or TAM may contribute to the immune escape of tion of the tumour tissue – which did not translate cytokines are regulated by ADAM10 and/or NEP ovarian cancer. Material and methods: Using im- into prolonged survival. Instead, infiltrating T-cells is unknown. The goal of the present study was to munohistochemistry, real-time PCR, luminescent assumed mostly a Foxp3 (regulatory) phenotype evaluate the effects of ADAM10 and NEP on tumor- immunoassays (LIA), immunofluorescent double and survival was even shortened. induced release of these cytokines using mix leuko- staining and adoptive transfer of glucocorticoid Conclusion: We thus propose that endogenous glu- cyte cultures (MLCs). receptor knock out immune cells into immune de- cocorticoids exert immunomodulatory functions MLCs were initiated using spleen and peripheral ficient mouse model for ovarian cancer. in ovarian cancer. Their putative role in tumour lymph nodes of female Balb/c mice injected with Results: We found that 11β-HSD1 enzyme is highly immune escape, however, needs to be assessed 4THM cells orthotopically 12 days earlier. Control expressed in human and murine ovarian cancer in context of further tolerogenic mechanisms that MLCs used cells from non-injected females. MLCs tissue. Luminescent immunoassays (LIA) showed may be simultaneously present. were stimulated with either tumor cells or LPS. elevated cortisol levels in serum, ascites and tissue A control group contained unstimulated cells. exudates from ovarian cancer patients as com- ADAM10 or NEP was added to MLCs at 10ng/ml pared to healthy controls. Immunofluorescent concentration. Changes in cytokine levels in the double staining revealed a co-localization of 11β- culture supernatant were determined at 40 hours HSD1 with CD14, CD68, and CD85, but not with by ELISA. EpCAM. Expression of 11β-HSD1 can thus be at- Results: Both ADAM10 and NEP significantly de- tributed to tumour associated macrophages (TAM) creased IL-6 secretion induced by stimulation of or myeloid derived suppressor cells (MDSC).To test MLC with 4THM cells. IL-10 secretion was not our hypothesis about activation of endogenous + 237 183 | Tumor Biology and Interaction with the Immune System 184 | Tumor Biology and Interaction with the Immune System Characterization of breast cancer stem cells and their correlation with circulating tumor cells Extracellular adenosine metabolism mediated by myeloid derived suppressor cells in melanoma and pancreatic cancer 1 1 1 1 1, 2 Siripakorn Sangkitporn , Somchai Sangkitporn , Patcharaporn Boonchu , Chonlada Yodtup , 2 Kris Chatamra 1 Clinical Research Center, Department of Medical Sciences, Nonthaburi, Thailand 2 Queen Sirikit Centre for Breast Cancer, Chulalongkorn Hospital, Bangkok, Thailand 1 1 German Cancer Research Center and University Hospital Mannheim, Heidelberg, Germany 2 Department of General Surgery, University of Heidelberg, Heidelberg, Germany Recent studies suggest that cancer stem cells 3D culture within 3 days. Flow cytometry results Extracellular ATP and adenosine have recently Moreover, CD73 levels were markedly higher on (CSCs) are responsible for tumor initiation, inva- show that phenotype of CSCs in both primary cell emerged as important signaling molecules acti- granulocytic MDSC. Most importantly, numbers sion, metastasis and resistance to anticancer thera- cultures and EDTA blood samples carried CD44 / vating and suppressing the anti-tumor immune of both granulocytic and monocytic CD73 MDSC + - - + pies. The connection of CSCs to circulating tumor CD24 / CD45 / EpCAM-. Molecular characteriza- response, respectively. The stepwise conversion were strongly increased in tumor-bearing mice. cells (CTCs) is complex and currently under debate. tion results demonstrate that Her2, ER, Mucin1 of ATP into adenosine by ectonucleotidases CD39 Therefore, enhanced adenosine production may CTCs are easily to obtain by peripheral blood sam- and actin genetic markers were positive whereas and CD73 provides a robust mechanism of immune contribute to MDSC-mediated suppression of anti- pling, which can be repeated frequently, allowing EpCAM was negative. regulation. Ectonucleotidase expression and their tumor response by MDSC. real-time monitoring of metastatic progression. Our findings demonstrate that CSCs that express activity in cancer cells and tumor infiltrating lym- Based on these data, we presumed that inhibition Currently, CTCs are being integrated into clinical CD44 / CD24 were disseminated from the primary phocytes have been linked to the tumor associated of adenosine production and/or signaling might di- trial design as surrogate markers in development tumor into the circulation. The characterization immune suppression. However, the mechanisms minish MDSC immunosuppressive functions and of targeted therapies. and enumeration of CSCs in peripheral blood modulating adenosine production by immune cells lead to a positive clinical effect. To this end, we In order to study the correlation between CSCs and samples could be used as liquid biopsy whereby remain largely unknown. treated ret transgenic tumor-bearing mice with a CTCs, phenotype and genotype characteristics of a simple test with minimal risk will permit tumor In the current study, we investigated the role of CSCs separated from primary cultures of breast characterization; provide real time information ectonucleotidases on CD11b Gr1 myeloid derived antagonist (SCH58261). Indeed, these therapies cancer tissues were compared with those of CTCs. about the patient’s current disease state, identifica- suppressor cells (MDSC) in mouse models of mela- resulted in a significantly prolonged survival of Tumor tissues and EDTA blood samples were col- tion of treatment targets and aid in selection of the noma and pancreatic adenocarcinoma. Ret trans- tumor-bearing animals. lected from invasive ductal carcinoma patients. most appropriate targeted therapy. + - + + CD73 inhibitor (APCP) or adenosine A2a receptor genic mice were used as a spontaneous melanoma Taken together, our data suggest that therapeutic Tumor tissues were processed based on mechani- model, which closely resembles human melanoma. inhibition of adenosine production and signaling cal disaggregation followed by enzyme digestion. In the orthotopic model of pancreatic ductal adeno- targets an important mechanism of immunosup- Cancer cell suspensions were grown in 2D mon- carcinoma, highly tumorigenic Panc02 cells were pression and holds promise as an efficient strategy olayer and 3D tumor sphere cultures. CTCs in EDTA injected directly into the head of pancreas of im- to boost an anti-tumor immunity. blood samples were enriched by density gradient munocompetent mice. centrifugation. CD24, CD44, CD45 and EpCAM ex- We found that CD39 is constitutively expressed on pression as surface markers were determined by all CD11b Gr1 cells in healthy and tumor-bear- multi-parameter flow cytometry. Genetic markers ing animals. This implies the capability of MDSC including Her2, ER, Mucin 1, EpCAM and internal to hydrolyze proinflammatory ATP into AMP. control actin were detected by RT-PCR. In contrast, the distribution of CD73 was highly In 2D culture, tumor cells were very pleomor- heterogeneous. In particular, the granulocytic phic. Most commonly the cells were triangular (CD11b Ly6C or spindle-shaped. Multinucleate cells were ob- significantly higher number of CD73 cells than the served. Tumor cells could form tumor spheres in 238 2 Ivan Shevchenko , Alexandr V. Bazhin and Viktor Umansky + + + -/low + Ly6G ) MDSC subset contained a + + monocytic subpopulation (CD11b Ly6C high - Ly6G ). 239 185 | Tumor Biology and Interaction with the Immune System 186 | Tumor Biology and Interaction with the Immune System Development of Resistance towards Artesunate in MDAMB-231 Human Breast Cancer Cells Treatment Characterization of dormant melanoma cells and their interaction with memory CD8 T-cells in ret transgenic mouse melanoma model 1, 2 3 1 1 2 Beatrice Bachmeier , Iduna Fichtner , Peter H. Killian , Emanuel Kronski , Ulrich Pfeffer , 4* Thomas Efferth Fernando Flores-Guzman, and Viktor Umansky German Cancer Research Center (DKFZ) and University Hospital Mannheim, Heidelberg, Germany 1 Department of Clinical Chemistry and Clinical Biochemistry, Ludwig-Maximilians-University, Munich, Germany 2 Functional Genomics, Advanced Biotechnology Center, Genoa, Italy 3 Department of Experimental Pharmacology, Max Delbrück-Center for Molecular Medicine, Berlin, Germany 4 Department of Pharmaceutical Biology, Institute of Pharmacy and Biochemistry, Johannes Gutenberg University, Mainz, Germany * E-mail: [email protected] + (2 and 4 TRP-2 CD133 that neoplastic clones are maintained by a rare frac- cells respectively). We confirmed the dormant tion of tumor cells with stem cell properties. CSC state of TRP-2 CD133 could represent disseminated dormant tumor cells the absence of Ki67 and PCNA expression. p16 and + + cells /106 bone marrow melanoma cells reflected without clinical signs of tumor progression. We p27, which typically are located in the nuclei of Breast cancer is the most common cancer and the efficiently abolished as compared to the control used a ret transgenic mouse spontaneous melano- dormanT-cells, were found in the cytoplasmic com- second leading cause of cancer death in industrial- drug doxorubicin. Taken together our in vitro and ma model, in which 25% of transgenic mice develop partment of TRP-2 CD133 melanoma cells indicat- ized countries. Systemic treatment of breast cancer in vivo results correlate well showing for the first skin tumors with metastases in lymph nodes, liver, ing their highly malignant phenotype. Investigat- is effective at the beginning of therapy. However, time that artesunate induces resistance in highly brain and lungs. Mice without macroscopic tumors ing the interaction between memory CD8 T-cells after a variable period of time, progression occurs metastatic breast tumors. older than 20 weeks contain in the bone marrow with disseminated melanoma cells in the bone tyrosinase related protein (TRP)-2-specific effector marrow, we found that TRP-2 Ki67 due to therapy resistance. Artesunate, clinically + + + + neg melanoma + used as anti-malarial agent, has recently revealed Selected references: memory CD8 T-cells and show no further melano- cells were co-localized with memory CD8 T-cells remarkable anti-tumor activity offering a role as Efferth et al. Molecular Pharmacology 2003;64:382-94. ma progression. This suggests a potential role of both in tumor free and tumor bearing mice. The novel candidate for cancer chemotherapy. We ana- Dell’Eva et al. Biochemical Pharmacology 2004;68:2359-6. dormant tumor cells in the maintenance of memory proportion of memory CD8 T-cells interacting with lyzed the anti-tumor effects of artesunate in me- Efferth. Drug Resistance Updates 2005;8:85-97. CD8 T-cells. We found that TRP-2 CD133 melano- TRP-2 Ki67 tastasizing breast carcinoma in vitro and in vivo. Efferth. Current Drug Targets 2006;7:407-21. ma cells represent <1.2% in primary skin tumors, 15%) in the bone marrow of these mice. Quantita- Unlike as expected, artesunate induced resistance Kelter et al. PLoS One 2007;2:e798. metastatic lymph nodes, and bone marrow metas- tive analyses revealed that although certain IFN-γ- in highly metastatic human breast cancer cells Efferth et al. PLoS One 2007;2:e693. tases. The majority of these cells were Ki67-negative producing CD8 T-cells interacted either with single MDA-MB-231. Likewise acquired resistance led to Efferth et al. Molecular Cancer Therapeutics 2008;7:152-61. suggesting thereby that these cells could remain in a TRP-2 melanoma cells or the smallest cluster of abolishment of apoptosis and cytotoxicity in pre- Li et al. Cancer Research 2008;68:4347-51. dormant state. We found an increased expression of melanoma cells (2-5 TRP-2 melanoma cells), none treated MDA-MB-231 cells. In contrast, artesunate Bachmeier et al., PLoS One 2011;6:e20550 HIF-1a on TRP-2 CD133 melanoma stem-like cells of these cells could produce perforin. Only two in large tumors in comparison with those in smaller TRP-2-specific CD8 T-cells were able to produce was more cytotoxic towards the less tumorigenic + + + + + + + + + neg melanoma cells was lower (less than + + + + MDA-MB-468 cells without showing resistance. tumors. Interestingly, TRP-2 CD133 HIF-1a mela- perforin, but none were co-localized neither with Unraveling the underlying molecular mechanisms, noma stem-like cell fraction had a higher capacity to TRP-2 melanoma cells nor TRP-2 CD133 melano- we found that resistance was induced due to acti- proliferative in smaller tumors in comparison with ma stem-like cell in tumor free and bearing mice. vation of the tumor progression related transcrip- those in large tumors. To investigate whether TRP- Furthermore, memory CD8 T-cells embedded into + + + + + + + tion factors NF-κB and AP-1. Thereby transcription, 2 CD133 melanoma cells are disseminated in the large clusters of melanoma cells (50 TRP-2 tumor expression and activity of the matrix-degrading bone marrow of ret transgenic mice, we performed cells) were unable to produce perforin and IFN-γ. enzyme MMP-1, whose function is correlated with an immunofluorescence. We found that only 40% These findings suggest that dormant TRP-2 tumor increased invasion and metastasis, was up-regulat- of mice without macroscopic tumors (n=20) con- cells might maintain memory CD8 T-cells. In con- + + + + ed upon acquisition of resistance. Additionally, ac- tained TRP-2 CD133 melanoma cells in the bone clusion, our data demonstrate an existence of the tivation of the apoptosis-related factor NF-κB lead marrow. In contrast, all tumor bearing mice (n=20) subpopulation of CD133 to increased expression of ant-apoptotic bcl2 and 240 + The hypothesis of cancer stem cell (CSC) suggests + + + + contained TRP-2 CD133 melanoma cells. The reduced expression of pro-apoptotic bax. Applica- amount of TRP-2 CD133 melanoma cells in the tion of artesunate in vivo in a model of xenografted bone marrow of mice without macroscopic tumor breast cancer showed, that tumors growth was not was significantly lower than in tumor bearing mice + melanoma cells in ret + transgenic mice. Dormant TRP-2 melanoma cells + are able to interact with CD8 T-cells in the bone marrow of tumor-bearing mice. 241 187 | Tumor Biology and Interaction with the Immune System 188 | Tumor Biology and Interaction with the Immune System Cyclophosphamide-induced myeloid-derived suppressor cells: their functional characterization and modulation by 5-azacytidine and IL-12 TLR3-expressing Tumor Parenchyma and Infiltrating NK Cells Promote Tumor Control in Hepatocellular Carcinoma Patients Romana Mikyšková, Marie Indrová, Veronika Polláková, Jana Bieblová, Jana Šímová and Milan Reiniš Valerie Chew, Charlene Tow, Emilie Bard-Chapeau, Neal G. Copeland, Nancy A. Jenkins, 3 4 5 6, 7 8 Achim Weber, Kiat Hon Lim, Han Chong Toh, Mathias Heikenwalder, Irene Ng, 1 1 Alessandra Nardin, Jean-Pierre Abastado 1 Institute of Molecular Genetics, Academy of Sciences of the Czech Republic, v.v.i., Prague, Czech Republic 2 2 2 1 Singapore Immunology Network (SIgN), Agency for Science, Technology and Research (A*STAR), Biopolis, Singapore 2 Institute Molecular and Cell Biology, Agency for Science, Technology and Research (A*STAR), Biopolis, Singapore Myeloid-derived suppressor cells (MDSC) are ability of CY-MDSC did not reach that of TU-MDSC. 3 Department of Clinical Pathology, University Hospital of Zurich, Switzerland major contributors to the mechanisms responsible In order to mimic the clinically relevant setting, a 4 for tumour-induced immunosuppression. MDSC group of mice bearing TC-1 tumours treated with Department of Pathology, Singapore General Hospital, Singapore 5 represent a heterogeneous population of undif- CY was also included into this comparison. The Department of Medical Oncology, National Cancer Centre, Singapore ferentiated myeloid cells, broadly defined in mice phenotype and function of MDSC obtained from 6 Institute of Neuropathology, University Hospital Zurich, Switzerland Institute of Virology, Technical University München / Helmholtz Zentrum München, Germany Department of Pathology, The University of Hong Kong, Queen Mary Hospital, and State Key Laboratory for Liver Research, The University of Hong Kong, Hong Kong as CD11b Gr-1 cells. The main feature of these the CY-treated, TC-1 tumour-bearing mice were, in 7 cells is their ability to suppress T-cell responses. general, found to lie between CY-MDSC and TU- 8 MDSC accumulate in lymphoid organs and blood MDSC. under different pathologic conditions, e.g. tumour Intraperitoneal or peritumoral treatment with growth, infection, or inflammation. MDSC mobi- 5-AZA decreased the percentage of MDSC in the lization was also reported after administration of spleens of TC-1 tumour-bearing mice. A decrease in widely used antineoplastic drug, DNA alkylating the percentage of MDSC was also noticed in tumour Background: Hepatocellular Carcinoma (HCC) is ing T and NK cells and 4) enhanced apoptosis with agent, cyclophosphamide (CY). microenvironment and this was accompanied by a highly aggressive cancer linked to chronically reduced proliferation of tumor parenchyma cells in The aim of our experiments was to characterize a decrease of arginase-1, one of the mechanisms dysregulated liver inflammation. However, appro- vivo. Accordingly, TLR3 expression in human HCC + the phenotype and function of spleen CD11b /Gr-1 by which MDSC exert their function. 5-AZA was priate immune responses can control HCC progres- patients correlated with NK cell activation, NK and cells that accumulate after CY therapy (CY-MDSC) also able to decrease the percentage of MDSC in the sion. Here we investigated the role of TLR3 in HCC T-cell infiltration into tumors, and with decreased and to compare them to those expanded in mice spleens of mice that underwent CY administration. patient survival and the underlying mechanisms. viability of tumor parenchyma cells. bearing HPV16-associated murine TC-1 carcinoma After in vitro cultivation of MDSC in the presence Methods: HCC cell death, NK cell activation and Conclusion: Taken together, these data demon- (TU-MDSC). Further, we evaluated whether this of IL-12, the percentage of CD11b /Gr-1 cells de- cytotoxicity were assessed in vitro after treatment strate that TLR3 is an important modulator of HCC population could be affected with DNA methyl- + creased and the percentage of CD86 /MHCII with the TLR3 ligand poly(I:C). The role of TLR3 progression and represents a potential target for transferase inhibitor 5-azacytidine (5-AZA) or with cells increased. This effect was accompanied by on the tumor parenchyma and infiltrating immune novel immunotherapy. interleukin 12 (IL-12), a potent immunostimulatory a decrease in the relative expression of immuno- cells was also investigated in a spontaneous tumor cytokine with the ability to differentiate MDSC into suppressive genes and lower VEGF production. mouse model (n=6 mice per group). These results antigen-presenting cells. A stronger modulatory effect was noticed in the were validated using tumor samples from 172 HCC Although both CY-MDSC and TU-MDSC acceler- group of CY-MDSC. patients. Survival was analyzed by Kaplan-Meier ated growth of TC-1 tumours in vivo, their phe- Our findings identified similarities and differences method using log-rank test and all statistical tests notype and immunosuppressive function dif- between CY-MDSC and TU-MDSC and provided were two-sided. fered. CY-MDSC consisted of higher percentage of useful information for further strategies elabo- Results: We showed that TLR3 expression is asso- ) and rating the optimal immunotherapeutic protocols ciated with superior survival in 172 HCC patients. lower percentage of polymorphonuclear-like MDSC based on the attenuation of immunosuppression by TLR3 activation induced cell death in a TLR3+ means of MDSC modulation, for example by utili- HCC cell line and promoted NK cell activation and zation of 5-AZA or IL-12. cytotoxicity in vitro. Injection of poly(I:C) in the + + + - monocyte-like subpopulation (Ly6G Ly6C + subpopulation (Ly6G Ly6C High Low ) when compared with TU-MDSC. This was accompanied by lower + + + relative expression of selected immunosuppressive genes and lower suppression of T-cell proliferation. After IFNγ stimulation, the expression of immunosuppressive genes increased, but the suppressive 242 1 spontaneous tumor mouse model induced 1) intraThis work was supported by grant from the Czech Science Foundation No. P301/11/P220 and, in part, by project No. AV0Z50520514 awarded by the Academy of Sciences of the Czech Republic. tumoral expression of chemokines Ccl5 and Cxcl9; 2) increased NK cell activation/infiltration into the tumor; 3) enhanced proliferation of tumor-infiltrat243 189 | Tumor Biology and Interaction with the Immune System 190 | Tumor Biology and Interaction with the Immune System A novel mitochondria-targeted antioxidant SkQ1: immunoregulatory properties in pancreatic cancer B7-H1 in chemo/immune therapy of pancreatic cancer 1 2, 3 1 1 1 Yuhui Yang , Pavel P. Philippov , Jens Werner , Alexandr V. Bazhin , Svetlana Karakhanova Alexandr V. Bazhin, Robert Ose, Jens Werner, Svetlana Karakhanova 1 Department of General Surgery, University Hospital Heidelberg, 69120 Heidelberg, Germany Department of General Surgery, University of Heidelberg, Germany; 2 Department of Cell Signalling, Belozersky Institute of Physico-Chemical Biology and 3 Institute of Mitoengineering, Lomonosov Moscow State University, Moscow 119991, Russia 244 Reactive oxygen species (ROS) is a group of highly ment also increased the percentage of pDCs while Pancreatic carcinoma is one of the most aggres- gering of specific signalling events. The inhibitory reactive molecules containing oxygen and original- reducing the percentage of granulocytes. In ex vivo sive human malignancies and most lethal cancers potential of the IFN-alpha-induced B7-H1 molecule ly considered as a harmful byproduct of cellular murine splenocyte cultures, SkQ1 treatment result- worldwide. Outcome of this disease could be im- was confirmed by co-culturing of T-cells and IFN- respiration. However, ROS also regulates various + ed in a higher frequency of CD4 T-cells and CD8 proved only partially, despite recent advances in alpha treated DC, with and without blocking of cellular functions by participating in signaling. T-cells as well as in a lower percentage of B cells. surgery and chemo/radio therapies. That is why B7-H1 with specific antibodies, and measuring pro- Disruption in the redox homeostasis leads to the In tumor bearing mice, SkQ1-treatment inhibited novel approaches are strongly needed to improve liferation and cytokine production from the T-cells. oxidative stress and damages, and subsequently to tumor growth and suppressed metastases. Moreo- the treatment of pancreatic cancer patients. Immu- Using mouse orthotopic model of pancreatic carci- various diseases including cancer. Many antican- ver, SkQ1 pretreatment lead to the highest percent- notherapy represents such an option. Clinical data noma and multiple fluorescence panels for different + + cer therapies employ ROS-mediated mechanisms to age of CD8 TEM cells and TCM cells and to the lowest show promising results for approaches combining subpopulations of immune cell, we demonstrated kill cancer cells. Such approaches, either through percentage of naïve CD8 T-cells in spleen and in + chemotherapeutics with activating cytokines, like that additional blocking of B7-H1 molecule during ROS-elevation or through ROS-depletion, demon- the tumor. At the same time, SkQ1 had no effect for example Interferon-alpha (IFN-alpha). However, 5-FU and IFN-alpha combinatory therapy improve strated promising effects. SkQ1 is a mitochondria- on Tregs, NK cells and myeloid-derived suppressor in parallel with immune stimulating effects of this the outcome of the treatment. The increase in anti- targeted antioxidant which is specifically accumu- cells. SkQ1 treatment decreased the NKT-cell fre- treatment, the presence and induction of immu- tumor immune response was achieved through the lated in mitochondria and has a high efficiency in quency in spleen and in the tumor. Like in healthy nosuppressive mechanisms should be considered positive effect on CD8 –T-cells and negative effect scavenging ROS. SkQ1 was shown to have some mice, SkQ1 pretreatment significantly increased in the course of pancreatic cancer therapy. B7-H1 on Treg subpopulation. anticancer activities in vivo. However, the under- the percentage and maturation state of pDCs in (CD274, PD-L1) regulatory molecules play an im- Taking together, our data demonstrate that, despite lying mechanism(s) is unclear. For regulating the spleen and in the tumor. portant role in the controlling and modulation of the stimulation of anti-tumor effects, IFN-alpha functions of immune cells a delicate oxidation-an- For human peripheral T-cells, SkQ1 treatment immune responses. In human pancreatic carcino- upregulates the expression of immunosuppressive tioxidation balance is essential. Due to the relation showed no effect on the percentage of subpopula- ma the B7-H1 expression is upregulated and cor- B7-H1 molecules, which could limit the effect of between ROS and immune system, the aim of this tions. No differences in the expression of activation relates strongly with poor patient’s prognosis. In immunotherapy. Thus, it is of advantage to reduce study is to investigate whether SkQ1 processes any markers and regulatory molecules were detected. pancreatic tumors B7-H1 expression contributes to undesirable site effects of B7-H1 expression on the immunoregulatory properties in tumor-bearing Thus, SKQ1 does not have a direct effect on T-cells. the tumor immune evasion and tumor progression tumor and immune cells by additional blocking of and healthy mice. In conclusion, our study shows that SkQ1 has po- and, as recently demonstrated, blocking of B7-H1 B7-H1 molecules with specific antibodies. Survival analysis showed that SkQ1 improved the tential anticancer activities in inhibiting pancreatic could improve anti-tumor effects in a mouse pan- median survival of pancreatic carcinoma bearing cancer growth and metastasis, with SkQ1 pretreat- creatic cancer model. mice, implying beneficial effect of SkQ1 in anti- ment showed the most obvious inhibition. In addi- In our study we aimed to investigate the expression cancer treatment. Since SkQ1 showed no direct cy- tion, we found that SkQ1 possesses certain immu- and function of B7-H1 molecules in the context of totoxic effect against pancreatic cancer cell lines, noregulatory properties in vivo. The effects of SkQ1 combined IFN-alpha therapy of pancreatic cancer. we speculated that the improved survival probably on various immune cell types may be responsible Using Flow cytometry, and cytological methods we resulted from the influence of SkQ1 on the immune for the improved survival and for suppression of showed that B7-H1 expression is upregulated on system. In healthy mice, SkQ1 treatment decreased the tumor growth and metastasis. More studies are dendritic cells (DC) and some pancreatic cancer cell the percentage of naïve T-cells while increasing the still needed to understand the relation between the lines upon treatment with IFN-alpha. As defined percentage of memory T-cells. No difference was effect of SkQ1 on the immune system and antican- by Western blot approach, the IFN- alpha induced detected for Tregs, NK and NKT-cells. SkQ1 treat- cer activities. expression of B7-H1 is also accompanied by trig245 191 | Tumor Biology and Interaction with the Immune System 192 | Tumor Biology and Interaction with the Immune System Effect of platinum-containing chemotherapy on tumor micro-environment in gynecological malignancies HLA class I and II antigen expression in human bladder cancer Eveline M. Dijkgraaf, Moniek Heusinkveld, Renske Goedemans, Johan W.R. Nortier, Marij J.P. Schoenmaekers-Welters, Judith R. Kroep, Sjoerd H. van der Burg Javier Carretero , Ana del Campo , Aurelia Gallego , Svitlana Zinchenco , Federico Garrido , 6 Natalia Aptsiauri Department of Clinical Oncology, Leiden University Medical Center, Albinusdreef 2, 2333 ZA, Leiden, Netherlands Departamento de Bioquímica y Biología Molecular III e Inmunologia , Universidad de Granada, 2,4,5,6 Departamento de Análisis Clínicos, Hospital Universitario Virgen de las Nieves, Granada Spain. 1 2 3 4 5 1,5 3 Departamento de Bioquímica, Hospital Universitario Virgen Macarena, Sevilla , Spain Monocytes attracted by tumor-induced chronic effect is PGE2- and IL-6 dependent as blocking of Tumor immune escape plays a critical role in cancer inflammation differentiate to antigen-presenting PGE2 by indomethacin and IL-6 via blocking of the progression, but the mechanisms involved in this cells (APC), the type of which depends on cues in IL6-receptor using the clinically used antibody to- process have still to be defined. In recent years, dif- the local tumor milieu. Previously, we and others cilizumab, restored APC phenotype and function. ferent HLA class I abnormalities have been found in showed the influence of cervical cancer cells and Furthermore, STAT3 phosphorylation in APC was tumors. The lack or downregulation of the expres- ovarian cancer cells on APC differentiation; the IL-6 dependent whereas pSTAT1 and 6 were PGE2- sion of single or multiple components of HLA class majority of cancer cells either hampered monocyte dependent. This indicates that chemotherapy-treat- I antigen processing pathway may help tumor cells to dendritic cell differentiation or skewed their dif- ed patients might benefit from concomitant therapy to avoid the recognition and elimination by tumor- ferentiation towards immune suppresive M2-like with COX inhibitors and blocking of IL-6(R). specific CD8 + expression of HLA class I antigens was previously prostaglandin-2 (PGE2) and interleukin-6 (IL-6). In- reported in bladder carcinoma (Maleno et al 2006, terestingly, enhanced COX2/PGE2 and high levels 2011) describing high frequency of the loss of het- of IL-6 are associated with chemoresistance and erozygosity (LOH) in chromosomes 6p21.3 (HLA tumor progression. The influence of chemotherapy class I heavy chain genes) (35%) and 15q21 (b2m on the tumor microenvironment, and visa verse, is gene) (44%). yet unclear. Here, we studied the effects of cisplatin We analyzed the HLA class I expression in seven and carboplatin on APC differentiation in cervical human bladder cell lines by flow cytometry with a and ovarian cancer in vitro. panel of monoclonal antibodies against HLA class isolated monocytes were cultured in the I and II proteins. None of the cells lines showed a presence of tumor supernatant of cervical and total loss of HLA class I molecules, however several ovarian cancer cell lines treated with representa- cases of locus-A, -B or -C downregulation were de- tive doses of cisplatin or carboplatin that penetrates tected. None of the studied cell lines expressed the tumor. Strikingly, dendritic cells displayed a HLA class II in basal condition. The HLA-class I better survival upon chemotherapy, while M2-like genomic typing was performed by PCR-SSO and macrophages were most sensitive to chemothera- the presence of LOH in chromosome 6 and 15 was py. Treatment of PGE2 and IL-6 producing cancer analyzed by microsatellite analysis. Preliminary cells resulted in an increased production of these results suggest that the studied cell lines have high inflammatory mediators and subsequently in in- incidence of LOH in chromosome 6 and 15, compa- creased numbers of M2-like macrophages with rable with the data in bladder carcinoma tissues. CD14 Maleno I, Aptsiauri N, Cabrera T, Gallego A, Paschen A, Lopez Nevot MA, Garrido F: Frequent loss of heterozygozity in the beta2 microglobuline region of chromosome 15 in primary human tumors. Immunogenetics 63,65,2011 cytotoxic T lymphocytes. Altered macrophages, depending on their ability to produce + Maleno I, Romero JM, Cabrera T, Paco L, Aptsiauri N, Cozar JM, Tallada M, Lopez Nevot MA, Garrido F: LOH at 6p21.3 region and HLA class I altered phenotypes in bladder carcinomas. Immunogenetics 58,503,2006 increased STAT3 phosphorylation and decreased STAT1 and STAT6 phosphorylation. This negative 246 247 193 | Tumor Biology and Interaction with the Immune System 194 | Tumor Biology and Interaction with the Immune System Epigenetic mechanisms underlying IFNγ-induced upregulation of antigen presenting machinery genes in tumor cells Hyperthermic intraperitoneal chemotherapy in patients with peritoneal carcinomatosis: Role of heat shock proteins and dissecting effects of hyperthermia Veronika Polláková, Veronika Hrušková, Jana Šímová, Jana Bieblová, Marie Indrová and Milan Reiniš Maria Lazariotou , Malte Vetterlein , Tanja Grimmig , Christoph Thomas Germer , 2 1 2 Joerg Pelz , Ana Maria Waaga-Gasser , Martin Gasser Department of Tumour Immunology, Institute of Molecular Genetics, Academy of Sciences of the Czech Republic, v. v. i., Prague 1 Department of Surgery I, Molecular Oncology and Immunology, University of Wuerzburg, Germany 2 Department of Surgery I, University of Wuerzburg, Germany 1 1 Epigenetic changes play important roles as genetic line TC-1/A9 and RVP3 in control and DAC/TSA- In patients with isolated peritoneal carcinomato- alterations in carcinogenesis and in the course of treated samples and MHC class I-deficienT-cell line sis (PC) of gastrointestinal and ovarian cancer hy- tumour growth. From the immunological point of TC-1/A9 and Tramp-C2 in control and INFγ-treated perthermic intraperitoneal chemotherapy (HIPEC) view, it is noteworthy that downregulation of genes samples. We have compared epigenetic agent and represents a promising treatment option integrated crucial for antigen presentation and costimulation IFNγ impacts in various cell lines and identified into multimodal concepts. in tumour cells involve epigenetic events. It is genes regulated by both IFNγ and the drugs. The A retrospective study of 63 patients treated with known that IFNγ-mediated MHC class I surface ex- results show that although there was a clear differ- HIPEC including a subgroup protein and gene ex- pression is associated with upregulation of antigen- ence in the responsiveness of the cell lines to the pression analysis of eight subjects with different presenting machinery genes (TAP1, TAP2, LMP2, same treatment and, on the other hand, different adenocarcinomas, additional PC, and from whom LMP7). Using MHC class I-deficient tumours, we responses of the same cells to IFNγ and epigenetic tumors were available before and after HIPEC have shown previously that expression of silenced drug treatment, a set of genes (e.g. APM genes) therapy was conducted. Relevant heat shock pro- antigen-presenting machinery (APM) genes can was regulated in the same manner. DNA demeth- teins (HSPs) that may confer increased resistance be restored by epigenetic agents (e.g. DNA meth- ylation of selected APM genes was determined by in tumor cells exposed to physical stress of hy- yltransferase and histone deacetylase inhibitors). the Methylation-Specific PCR (MSP) analysis of perthermia were analyzed. HIPEC was performed This work is focused on epigenetic mechanisms different experimental and control tumour cell under hyperthermic conditions and current chemo- (DNA methylation, histone acetylation) in IFNγ lines. Treatment with IFNγ, with the combina- therapeutic protocols after cytoreductive surgery. pathways. The principal objective was to uncover tion of IFNγ and epigenetic agents, and with TNFα In addition, HT-29 colon cancer cells were exposed the role of DNA methylation in IFNγ-induced up- induced demethylation of the promoter region of to different hyperthermic conditions and analyzed regulation of MHC class I, APM and costimulatory APM genes. Our next objective was to see whether for HSP-expression, apoptosis, and proliferation. molecules and interferon regulatory factors (IRF) the IFNγ signalling pathway components (IRF or Upregulation of HSP27, HSP70/72, and HSP90 ex- in tumour cells. Further, we have investigated STAT1) could be influenced by 5AC and to monitor pression was found in all tumor entities of the pa- whether IFNγ signalling pathway components (IRF expression of IRF genes in the TC1/A9 tumour cell tients after HIPEC therapy (HSP90, p=0.001). An or STAT1) could be influenced by 5-azacytidine line after stimulation with 5AC and with IFNγ. Our upregulation of HSP expression was also observed (5AC). Our effort was to determine and compare results indicate that stimulation with both 5AC and in HT-29 cells confirming clinical results and un- the transcription levels of selected immunoac- IFNγ caused increased expression of these selected derlining its dependency on preselected tempera- tive genes and the epigenetic changes within the IFNγ signalling pathway components. Our current ture for optimal results as exemplified in cell vi- genome of tumour cells after treatment with epi- hy pothesis is that DNA demethylation of the reg- ability. Interestingly, the optimal temperature to genetic agents and with IFNγ. It was important to ulatory sequences of APM genes is an important achieve optimal toxicity on the tumor cells was uncover whether IFNγ would act as an epigenetic mechanism underlying enhanced expression of found at 41°C. Therapeutic approaches like HIPEC agent upregulating the expression of genes impor- these genes after treatment with IFNγ. to achieve antiproliferative and apoptosis inducing tant for antigen presentation and costimulation through demethylation. The aim was to describe in detail the reversible mechanisms in tumour cell escape from specific immunity. We have performed a pilot study based on transcriptome analysis of MHC class I-deficienT-cell 248 1 2 cellular effects in patients with PC are negatively This work was supported by grant from the Czech Science Foundation No. 301/10/2174 and in part by project No. AV0Z50520514 awarded by the Academy of Sciences of the Czech Republic. influenced by highly conserved HSP mechanisms V.P. is a Ph.D. student supported in part by the Faculty of Science, Charles University, Prague. essary to be established to achieve optimal cyto- in the tumor cells. This study shows for the first time that specific hyperthermic conditions are nectoxic effects on tumor cells in HIPEC therapy. 249 195 | Tumor Biology and Interaction with the Immune System 196 | Tumor Biology and Interaction with the Immune System Clinical significance and therapeutic potential of programmed death 1 and programmed death ligand 1 and 2 expression in human colorectal cancer Correlation of tumor-associated antigens MAGE, NY-ESO-1 and P53 expression with clinical and pathological relationships of patients with oral squamous cell carcinoma 1 2 1 2 Martin Gasser , Maria Lazariotou , Christoph Thomas Germer , Ana Maria Waaga-Gasser 1 Department of Surgery I, University of Wuerzburg, Germany 2 Department of Surgery I, Molecular Oncology and Immunology, University of Wuerzburg, Germany 1 2 3 1 Service of Head and Neck surgery, University Hospital, Lausanne, Switzerland 2 Institute of Pathology, University Hospital (CHUV), Lausanne, Switzerland 3 Ludwig Institute for Cancer Research, Lausanne Branch, University Hospital (CHUV), Switzerland The negative regulatory programmed death-1/pro- the PD-L1 and PD-L2 status may be a new predictor Despite advances in the diagnosis and treatment MAGE-A was expressed in 52% of patients. NY- grammed death ligand (PD-1/PD-L) pathway in of prognosis for patients with CRC. of Head and Neck cancer, survival rates have not ESO-1 and P53 expression was found in 7% and T-cell activation has been suggested to play an im- improved over recent years. New therapeutic strate- 52% cases respectively. A higher tumor depth was portant role in tumor evasion from host immunity. gies, including immunotherapy, are the subject of significantly correlated with expression of MAGE-A Levels of immune cells expressing PD-1 in clinical extensive research. In several types of tumors, the proteins (p=0.03). No significant correlation could colorectal cancer (CRC) have not been evaluated presence of tumor infiltrating lymphocytes (TILs), be made between the expression of both p53 and so far. Thus PD-1 expression of tumor infiltrating notably CD8 T-cells and dendritic cells, has been NY-OESO-1 and histopathological parameters. Ex- T-cells together with tumor cell derived expression correlated with improved prognosis. Moreover, some pression of tumor-associated antigen did not seem of PD-L1 and PD-L2 was investigated for its clinical T-cells among TILs have been shown to kill tumor to impact significantly on patient prognosis. significance in patients with CRC. cells in vitro upon recognition of tumor-associated As does the demonstration of p53 function inhibi- Tumors from 116 patients with CRC (01/2001- antigens. Tumor associated antigens are expressed tion by CT antigens of MAGE family, our results 12/2004) were analyzed for their PD-L1 and PD-L2 in a significant proportion of squamous cell carci- suggest, that tumor associated antigens may be gene expression by RT-qPCR and were addition- noma of the Head and Neck and apparently may implicated in tumor progression mechanisms, This ally immunostained. Outcome analyses were per- play a role, in the regulation of cancer cell growth hypothesis need further investigation to clarify the formed based on completed 5 year tumor registry notably by inhibition of p53 protein function in some relationship between host immune response and data. cancers. The MAGE family CT antigens could there- local tumor biology. T-cell infiltration was observed in 105 (90.5%) fore potentially be used as defined targets for im- patient tumors with 93 (80.2%) tumors showing munotherapy and their study bring new insight in PD-1+ T-cells. Interestingly, PD-L expression was tumor growth regulation mechanisms. inversely correlated with tumor-infiltrating T lym- Between 1995-2005 54 patients were treated sur- + 250 1 Jean-Paul Rivals , Kishore Sandu , Snezana Andrejevic-Blant , Donata Rimoldi , 3 3 1 1 1 Daniel Speiser , Pedro Romero , Philippe Monnier , Christian Simon and Luc Bron + phocytes, particularly with CD8 T-cells. Moreover, gically in our institution for squamous cell carci- intratumoral PD-1+ T-cell infiltration was associ- noma of the oral cavity. Patient and clinical data ated with advanced tumor stage (p=0.002). Pa- was obtained from patient files and collected into tients with PD-1+ T-cells demonstrated to express a computerized database. For each patient, paraf- significantly more PD-L1 on their tumor cells. In fin embedded tumor specimens were retrieved and addition, multivariate analysis demonstrated that expression of MAGE CT antigens, p53, NY-ESO-1 patients positive for PD-L in their tumors and those were analysed by immunohistochemistry Results with PD-1+ T-cell infiltrates had a significantly were then correlated with histopathological param- poorer prognosis than negative patients. These data eter such as tumor depth, front invasion according suggest that interactions of T-cells expressing PD-1 to Bryne and both, local control and disease free and PD-L can promote cancer progression. Thus, survival. 251 197 | Tumor Biology and Interaction with the Immune System 198 | Tumor Biology and Interaction with the Immune System It takes two to tango: MHC-I and Invariant chain in harmony Endothelial cells derived from non-malignant tissues as models for tumor vasculature are of limited value 1 1 1 3 1 Sébastien Wälchli , Shraddha Kumari , Weiwen Yang , Kine M. K. Sand , Lars-Egil Fallang , 3 3 1, 2 3 Ole B. Landsverk , Oddmund Bakke , Johanna Olweus , and Tone F. Gregers 1 Department of Immunology, Institute for Cancer Research, Oslo University Hospital Radium hospitalet, N-0310 Oslo, Norway 2 Centre for Immune Regulation, University of Oslo, N-0316 Oslo, Norway 3 Department of Molecular Biosciences, University of Oslo, N-0316 Oslo, Norway 1 2 1 1 Department of Neurosurgery, Division of Neurosurgical Research, University of Heidelberg, Germany 2 Translational Immunology Unit, German Cancer Research Center, Heidelberg, Germany Supplying blood vessels are not only essential for firming endothelial identity and excluding contam- nourishing growing tumor masses but also for fa- ination with tumor cells or leukocytes. Unsuper- cilitating access to invading immune cells. As a con- vised clustering of the mRNA expression profiles sequence tumor-derived endothelial cells became a unveiled distinct grouping. In addition, student’s focus in tumor immunology. The isolation and cul- t-test showed 780 genes to be significantly differen- Exogenous peptides are presented by specialized similar efficiencies. Taken together, these data tivation of tumor endothelia however are limited by tially expressed at a p-value of 0.001 excluding low antigen presenting cells (APC) via MHC class II confirm the interaction between MHC-I and Ii and the availability of freshly operated tumor material row intensities. Following combined pathway and molecules (MCH-II). The type II transmembrane further demonstrate that the CLIP-replaced-Ii con- and laborious isolation procedures. Thus model en- gene ontology analysis identified profound enrich- protein invariant chain (Ii) acts as a chaperone for struct can be exploited as an efficient, proteasome- dothelial cells derived from non-malignant tissues ment for genes related to cell adhesion, angiogene- MHC-II and targets it to the endosomal pathway independent tool for peptide loading of MHC-I, with are commonly used to imitate tumor vasculature. sis and leukocyte migration. On basis of our mRNA where peptide loading occurs. In addition, Ii pre- potential application in vaccination strategies. E.g. Human umbilical cord vein endothelial cells profiling, we quantified two key adhesion mol- vents the premature loading of MHC II through its (HUVECs) are easy accessible, cheap and hence a ecules for leukocyte transmigration, ICAM-1 (in- CLIP region which occupies the MHC II peptide popular model for studying angiogenesis and trans- tercellular cell adhesion molecule-1) and VCAM-1 binding groove. Unlike MHC-II, MHC-I is expressed migration of lymphocytes. Nevertheless, current (vascular cell adhesion molecule-1), on the protein in all nucleated cells and binds mainly endogenous- publications revealed that tumor-derived endothe- level. About one third of GECs expressed ICAM-1 ly derived peptides generated by the proteasome lial cells harbor more alterations, through reasons and VCAM-1 protein similar to original tumor and targeted to the ER without the assistance of Ii. such as vascular mimicry, than initially assumed. tissue whereas HUVECs were negative. Cultivation However, evidence supports that MHC I is also in- We therefore aimed to comprehensively compare of HUVECs in cytokine-reduced medium restored teracting with Ii. Since the replacement of the CLIP HUVECs to freshly isolated endothelial cells from CAM expression. Because CAMs can be regulated peptide has been shown to efficiently load MHC-II glioblastoma (GECs, glioblastoma-derived endothe- by tumor-derived factors, we moreover investigated and to increase presentation of specific epitopes, lial cells), a highly vascularized and aggressive the influence of five angiogenic cytokines, proven we wanted to determine if this held true for MHC-I brain tumor. by ELISA to be the most prominent ones in glioblas- as well. We here present data showing that these HUVECs and GECs were cultivated and harvested toma, on CAM expression. HUVECs downregulated proteins co-localized in the endosomal pathway in passage one or two to minimize cultivation ar- CAM expression after a 72 h incubation with bFGF, when co-expressed in model cell lines. Biochemi- tifacts. Purity of GEC isolates was confirmed by VEGF, HGF, TGF-β1 and TGF-β2. Yet, GECs were cal evidence suggested that MHC-I interacted with characteristic uptake of acetylated low density li- only sensitive to TGF-βs resulting in a 58% reduc- Iiwt, and that this interaction was increased when poprotein (AcLDL) and immunostainings. HUVEC tion of ICAM-1 and 92% of VCAM-1, respectively. CLIP peptide was replaced by known MHC-I pep- (n=2) and GEC (n=5) expression profiles were de- We conclude that glioblastoma-isolated endothelia tides, indicating that this interaction was a least in termined by mRNA microarray analysis. An assort- show significant differences to blood vessel cells part affected by the CLIP peptide. Next, we tested ment of regulated genes was validated via quan- from non-malignant tissue regarding gene expres- the ability of the CLIP-replaced Ii to load MHC-I, titative PCR. Subsequently, immunostainings and sion patterns and response to external stimuli. and showed that CD8 T-cells could indeed be ac- flow cytometric analysis were performed to further Consequently, if non-tumor derived endothelial tivated. Finally, we demonstrated that dendritic delineate functional differences. cells are used to conclude on their behavior in cells transfected with constructs encoding either Nearly hundred percent of cultivated GEC showed cancers, the suitability and cultivation method of full length protein or the modified Ii-chain indeed AcLDL uptake and were completely negative for these model cells needs to be accurately proven. primed antigen-specific naïve CD8 T-cells with glial fibrillary acidic protein (GFAP) and CD45, con- + 252 1 Jennifer Lohr , Andreas Mock , Philipp Beckhove , Christel Herold-Mende 253 199 | Tumor Biology and Interaction with the Immune System 200 | Tumor Biology and Interaction with the Immune System Cytotoxic dendritic cells inhibit regulatory T lymphocyte generation Helicobacter-induced preneoplastic gastric immunopathology is suppressed by TLR2-activated B cell induced T regulatory-1 cells Nona Janikashvili, Alexandrine Gautheron, Malika Trad, Marion Ciudad, Bernard Bonnotte Ayca Sayi Yazgan INSERM UMR1098, IFR 100, Faculty of Medicine, University of Burgundy, Dijon, France 1 Institute of Molecular Cancer Research, University of Zürich, Winterthurerstr. 190, Zürich, Switzerland 2 Department of Molecular Biology and Genetics, Faculty of Science and Letters, Istanbul Technical Universtiy, Maslak, Istanbul, Turkey 1, 2 1 1 , Esther Kohler , Anne Müller Known for years as professional antigen presenting cells, dendritic cells (DC) are also endowed with tumor cytotoxic activity. We showed that this novel function of cytotoxic DC, together with their ability to activate tumor specific T-cell responses, have important implications in antitumor immu- B-cells regulate autoimmune pathologies and nopathology, promoting gastric mucosal homeosta- notherapy in experimental models and in human chronic inflammatory conditions such as autoim- sis on the one hand and facilitating Helicobacter ex vivo. However, cancer-induced immunosuppres- mune encephalomyelitis and inflammatory bowel persistence on the other. sion often reduces the anti-tumor effects of immu- disease. The potential counter-regulatory role of notherapies leading to disappointing results using B-cells in balancing pathogen-specific immune re- such protocols in clinical trials. Therefore, thera- sponses and excessive immunopathology is much peutic strategies combining the induction of effec- less understood due to the lack of appropriate per- tive antitumor immunity with the inhibition of the sistent infection models. We show here that B-cells mechanisms of tumor induced immunosuppression have the ability to negatively regulate adaptive represent a key objective in cancer immunothera- immune responses to bacterial pathogens. Using py. We herein study the interactions between cyto- mouse models of infection with Helicobacter felis, a toxic DC and Treg the powerful suppressive cells close relative of the human gastrointestinal patho- responsible of the establishment and persistence of gen H. pylori, we found that B-cells activated by cancer-induced immunosuppression by impeding Helicobacter TLR-2 ligands induce IL-10-producing DC and effector T lymphocytes. We demonstrate CD4 CD25 T regulatory-1 (Tr-1)-like cells in vitro that cytotoxic DC generated from cancer patients and in vivo. Tr-1 conversion depends on TCR signal- or healthy donors resist Treg induced immunosup- ling and a direct T-/B-interaction through CD40/ pression. Additionally, after killing tumor cells, CD40L and CD80/CD28. B-cell-induced Tr-1 cells cytotoxic DC inhibit the conversion of naïve T-cells acquire suppressive activity in vitro and suppress to Treg and, in turn, deviate their differentiation excessive gastric Helicobacter-associated immuno- towards the effector T helper 1 population. These pathology in vivo. Adoptive co-transfer of MyD88- observations emphasize important new perspec- proficient B-cells and Tr-1 cells restores a normal tives for the use of cytotoxic DC in cancer immu- gastric mucosal architecture in MyD88 and IL-10 notherapy strategies. mice in a manner that depends on T-cellular, but + + -/- -/- not B-cellular IL-10 production. Our findings describe a novel mechanism of B-cell dependent Tr-1 cell generation and function in a clinically relevant disease model. In conclusion, we demonstrate here that the B-cell/Tr-1 cell axis is essential for balancing the control of Helicobacter infection with the prevention of excessive Th1-driven gastric immu254 255 201 | Tumor Biology and Interaction with the Immune System 202 | Tumor Biology and Interaction with the Immune System Investigation and inhibition of tumor immune escape from NKG2D-dependent NK cell cytotoxicity Impaired expression of TAP-2 as posttranscriptionally controlled by microRNAs, modulate immune escape mechanisms in esophageal adenocarcinoma *1 *1 2 3 1 1 1, 2 1, 2 Ariane Groth , Sandra Weil , Alexander Steinle , Ulrike Köhl and Joachim Koch . Luigi Mari , Francesca Milano , K. K. Krishnadath 1 Georg-Speyer-Haus, Frankfurt, Germany 1 2 Paediatric Haematology and Oncology Laboratory for Stem Cell Transplantation and Immunotherapy, Frankfurt, Germany Dept. of Experimental and Molecular Medicine, Academic Medical Center, Amsterdam, Netherlands 2 Dept. of Gastroenterology and Hepatology,Academic Medical Center, Amsterdam, Netherlands 3 Institute of Molecular Medicine, Johann Wolfgang Goethe-University, Frankfurt, Germany * equal contribution + Background: NKG2D natural killer (NK) cells was generated and analyzed by peptide spot arrays, Down-regulation of the MHC class I surface anti- one of these four microRNA binds to TAP-2 and display cytotoxicity towards tumor cells after flow cytometry, IP and ELISA. gens is a mechanism of tumor cells to escape from can inhibit transcription of this protein. Further binding to MHC class I chain-related gene A or B Results: We identified an sMICA-dependent tumor immune surveillance and is common in several ag- understanding of microRNA mediated post-tran- (MICA/B) or the UL-16 binding proteins (ULBP) immune escape from NK cells in NB Patients. gressive cancers, including Esophageal adenocar- scriptional modifications in the APM pathway can 1-5 on the targeT-cell. However, soluble NKG2D- Within an ongoing phase I/II clinical trial with cinoma (EAC). In a previous study we discovered lead to the discovery of novel targets to circumvent ligands (sNKG2DLs), which can be shed from the IL-2-stimulated allogeneic NK (dNK) cells for im- that in the EAC cell line OE19, downregulation of APM-related immune escape mechanisms in solid plasma membrane of tumor cells, might compro- munotherapy of patients with high-risk stage IV TAP-2, a member of the Antigen Processing and tumors. mise NKG2D-dependent NK cell cytotoxicity and neuroblastoma (NB), we found high plasma levels Presentation Machinery (APM), accounts for a de- thus promote tumor escape from immunosurveil- of sMICA leading to an impaired lytic activity of ficient Dendritic Cell (DC)-mediated anti-tumor lance. In head and neck squamous cell carcinoma NK cells (Kloess et al., J Immunol, 2010). Further- T-cell response. IFN-γ treatment restored TAP-2 (HNSCC) and neuroblastoma (NB) patients, elevat- more, we were able to establish a screening system epxression in OE19 and restored the sensitivity of ed levels of sMICA in patient serum correlated sig- based on spheroids as an inducible in vitro shed- these cells to T-cell induced cytotoxicity. In OE33, nificantly with diminished NK cell cytotoxicity. In ding model of NKG2DLs. The hybridoma screen another EAC cell line, TAP-2 is proficient and this the current study we aim to elucidate the molecular gave rise to three antibody epitope categories: one cell line is sentitive to T-cell induced cytotoxicity. details of this immune escape mechanism for pro- MICA-specific and two MICA/B-specific groups. However, silencing TAP-2 in OE33 proved to sig- spective therapeutic intervention. Initial depletion experiments showed that sMICA nificantly decrease T-cell induced cytotoxicity. Un- Methods: Since clinical results suggest a major role and recMICA are captured by monoclonal antibod- derstanding the molecular mechanisms at the base of sNKG2DLs in inhibiting NK cell surveillance of ies as well as by recNKG2D. of these impairments can lead to circumvention of tumor cells, NB and HNSCC tumor-cell lines were Conclusions: Our spheroid model is a valuable tool immune escape mechanisms and in turn the design used to generate a 3D tumor spheroid model to to specifically analyze NKG2D ligand shedding of more effective treatments. Since microRNAs study the molecular details of NKG2D-dependent to determine the precise parameters for NKG2D- are known as pivotal post-transcriptional regula- tumor immune escape in vitro. NKG2DL expression dependent immune escape from NK cells and to tors and players in the regulation of cancer and was verified by flow cytometry and IHC of spheroid develop clinical intervention strategies. Therapeu- the immune system, we analyzed the expression cryosections. MICA shedding was induced by dif- tic depletion of sMICA from patient serum prior pattern of microRNAs in the above mentioned cell ferent stress conditions. Additionally, infiltration to cell-based therapies could significantly boost lines and found significant differential expression and susceptibility to primary NK cell cytotoxicity donor NK cell cytotoxicity and improve the clinical of several microRNAs. More specifically we found was analyzed. In parallel, a therapeutic interven- benefit for NB patients. that treatment of OE19 with IFN-γ induced down- tion approach to deplete sMICA from NB patients `sera was initiated. To functionalize a suitable bio- 256 regulation of four microRNAs, which were also [email protected] expressed at very low levels in OE33. By analys- reactive surface, a panel of monoclonal antibodies, ing databases for the predicted microRNA targets raised against the alpha3-helical domain of MICA, and target down-regulation scores, we found that 257 203 | Tumor Biology and Interaction with the Immune System 204 | Tumor Biology and Interaction with the Immune System Expression and regulation of arginine transport proteins in human T lymphocytes Arginine auxotrophy: tumor growth analysis in a 3D in vitro culture system 1, 2 2 1 2 Vanessa Schnitzius , Alice Habermeier , Claudia Luckner-Minden , Jean-Paul Boissel , 3 3 2,* 1,* Mario Hubo , Helmut Jonuleit , Ellen Closs , Markus Munder Jose Hadi Sutanto, Katharina Schneider, Claudia Luckner-Minden, Hakim Echchannaoui, Edite Antunes, Matthias Theobald, Markus Munder 1 Third Department of Medicine (Hematology, Oncology, and Pneumology), University Medical Center of the Johannes Gutenberg University Mainz, Germany Third Department of Medicine (Hematology, Oncology, and Pneumology), University Medical Center of the Johannes Gutenberg University Mainz, Germany 2 Department of Pharmacology, University Medical Center of the Johannes Gutenberg University Mainz, Germany 3 Department of Dermatology, University Medical Center of the Johannes Gutenberg University Mainz, Germany * these authors share last authorship The adaptive anti-tumor immune response is inhib- CAT-1 mRNA levels were preserved specifically in Metabolic profiling of tumor cells offers the unique vivo reality we then analysed arginine-, citrulline- ited by myeloid-derived suppressor cells (MDSC), the absence of arginine while in the presence of ar- potential to specifically target malignancy based and ASS-dependent tumor cell growth in a three- which expand in tumor patients systemically and ginine hCAT-1 mRNA decreased again. In contrast, on the identification of auxotrophy for specific nu- dimensional (3D) tumor model. We established mul- locally within the tumor microenvironment. MDSC CAT-3 mRNA (previously thought to be central trients. Depletion of the amino acid arginine is an ticellular tumor spheroids (MCTS) of immortalised mainly suppress T-cell responses via arginase-medi- nervous system specific) was expressed in resting effective treatment strategy for tumors that are de- murine embryonic fibroblasts (MEF) with different ated arginine depletion. Since arginine availability human T-cells and preserved upon stimulation in the ficient in the enzyme argininosuccinate synthase (low, medium, and high) expression levels of ASS is crucial for full T-cell activation and consecutive absence of arginine. In contrast, it was downregu- (ASS), which converts citrulline into arginine. and compared two-dimensional and three-dimen- T-cell-mediated anti-tumor immune responses, we lated upon activation in the presence of arginine. The ASS-deficient tumors are unable to use citrulline sional tumor cell viability and growth sequentially have started to analyse the expression and regula- CAT-2 mRNA isoforms were not expressed in human from the microenvironment as a rescue strategy to by (i) MTS tetrazolium salT-cell proliferation assay, tion of arginine transport proteins in primary human T-cells under any tested condition, contrasting with bypass arginine deficiency. Arginine depletion can (ii) microscopic MCTS diameter measurements, (iii) T lymphocytes. Transmembranous transport of the their prominent inducible role in activated murine be achieved endogenously via arginase-expressing flow cytometric annexin V / propidium iodide anal- cationic amino acid arginine has so far been studied myeloid cells as well as other eukaryotic tissues. myeloid cells but also pharmacologically via ap- ysis and (iv) flow cytometric cell division analysis in other eukaryotic tissues and it has been shown mRNA of the system y+L transporter y+LAT2 was plication of pegylated forms of arginine-metabolis- by eFluor® 670 labeling. We show that MEF growth that it can be shuttled across cell membranes via spe- strongly expressed in resting human T-cells and ing enzymes like arginase or arginine deiminase, is critically dependent on arginine and that citrul- cialised membrane proteins that only transport cati- further induced upon activation. The elvated expres- already tested in clinical phase I-III studies. Since line can rescue MEF proliferation only if ASS is ex- onic amino acids (CATs, cationic amino acid trans- sion was preserved in the absence, but not the pres- human T lymphocytes can upregulate ASS upon pressed. In contrast to 2D culture conditions, MEF porters) or via transporter proteins for cationic and ence of arginine at 48h. CAT-1 and CAT-3 protein ex- arginine depletion and reconstitute functional MCTS cellular viability is preserved for extended neutral amino acids (y+LATs, b AT und ATB ). pression paralleled the respective mRNA in human defects upon citrulline supplementation, arginine periods of time independent of extracellular ar- In contrast to other tissues, arginine transport into T-cells as shown by Western Blots. Finally, expres- depletion with concomitant citrulline supplemen- ginine: while MEF cell viability is decreased dra- human immune cells is largely a black box, so far. sion and regulation of CAT isoforms and y+LAT2 tation is a very promising treatment strategy to matically after 2 days without arginine, 3D culture 0,+ 0,+ + + For all our experiments we used primary human T was similar in both CD4 and CD8 human primary simultaneously induce cancer cell death and pre- conditions allow preservation of viability for at least lymphocytes that were sorted from normal blood T-cells as well as highly purified human regulatory serve anti-tumor immune cell functions. 6 days without exogenously substituted arginine. Also, 3D arginine-deprived MCTS can regain normal + + donors by magnetic separation. We stimulated CD4 CD25 T-cells. To analyse the prerequisites for this strategy we first primary human T-cells by anti-CD3/anti-CD28-cou- In summary, our results underscore the complexity measured tumor cell growth ( H thymidine incor- growth after replenishment of arginine. pled beads for 6h, 24h, and 48h in the absence or of immune cell regulation via arginine availability poration) and metabolic mitochondrial activity in a In summary, our results demonstrate the impor- presence of arginine (1 mM) and prepared mRNA and contribute to a better understanding of adap- panel of various established tumor cell lines in the tance of arginine metabolism for tumor cell growth as well as cellular protein lysates. In parallel, we tive immunity also in the context of tumor-associ- absence or presence (1 mM) of arginine +/- citrul- and underscore the need for the development of monitored arginine-dependent T-cell functions by ated immune escape. Arginine transport proteins of line (1 mM) substitution and correlate these results appropriate in vitro model systems as a first step proliferation and cytokine secretion analysis assays. human T lymphocytes are potential new targets for with tumor cell expression of ASS. We show that (i) for later therapeutic manipulation of amino acid By quantitative Real Time PCR we found a complex the pharmacological manipulation of T-cell functions. all tumor cell lines need arginine for growth and metabolism in the tumor microenvironment. (ii) that only ASS-positive tumor cells are able to regulation of CAT isoforms and y+LAT2 upon T-cell 258 3 activation: CAT-1 mRNA was significantly induced Funding: DFG (MU 1547/4-1 to M.M. and CL 100/6-1 to E.C.) use exogenously applied citrulline to compensate for in 6h after stimulation. At later time points, high Note: This abstract contains parts of the M.D. thesis of V.S. arginine deficiency. In order to better recapitulate in Note: This abstract contains parts of the M.D. theses of J.H.S. and K.S. 259 205 | Tumor Biology and Interaction with the Immune System 206 | Tumor Biology and Interaction with the Immune System Immunomodulatory properties of cancer stem cells isolated from human glioblastoma and colorectal cancer Radiation-induced gene expression leads to altered immune signaling and migration in glioma-initiating cells 1 1 2 2 1 Cristina Maccalli , Andrea Volontè , Ena Wang , Francesco M. Marincola , Giorgio Parmiani 1 2 Unit of Immuno-biotherapy of Melanoma and Solid Tumors, San Raffaele Foundation Scientific Institute, Milan, Italy; Infectious Disease and Immunogenetics Section (IDIS) Department of Transfusion Medicine, Clinical Center, and Center for Human Immunology (CHI) National Institutes of Health, Bethesda, MD, USA 260 1, 2 2 3 3 Nicola Hoppmann , Christoph Schmitz-Salue , Gabriela Salinas , Lennart Opitz , 2 2 1 Ella Kim , Alf Giese , Frauke Zipp 1 Department of Neurology, University Medical Center Mainz, Germany 2 The Translational Neurooncology Research Group, Department of Neurosurgery, University Medical Center Mainz, Germany 3 Transcriptome Laboratory, University Medical Centre Göttingen, Germany We have previously reported that glioblastoma activity by blocking this cytokine with a neutral- Glioblastoma multiforme (GBM) is the most common Therefore, the identification of molecular mecha- multiforme (GBM)-derived cancer stem cells (CSCs) izing antibody leading to an efficient in vitro in- and most aggressive tumor of the central nervous nisms that render GICs capable of withstanding have a low immunogenic profile, eliciting mostly duction of TH1 type responses in the autologous system in adults. The standard treatments for GBM, cytotoxic treatments is pivotal also for further de- TH2-mediated responses in autologous settings co-culture of CSCs and PBMCs. including surgery followed by the combined radia- velopment of the immune-based glioma therapy. and inhibiting allogeneic T-cell proliferation com- Of note, we could also identify a CSC-associated tion- and chemotherapy, only modestly improve pared to their FBS-cultured non-CSC (FBS tumor microRNA signature. We are currently exploiting patient survival. Post-treatment recurrence due to cells) pairs (Di Tomaso et al, 2010). In addition, these results to identify microRNA with immu- radio- and chemoresistance is the major cause of CSCs isolated from colorectal cancer (CRC) tissues noregulatory functions. fatality in glioma patients. Stem-like Glioma Initiat- are being characterized both functionally and im- Altogether, these results will allow to identify im- ing Cells (GICs) are thought to play a major role in munologically; early data suggest features compa- munomodulatory agents that can efficiently restore generating glioma resistance to different types of rable to those of the GBM model. A candidate nega- the expression of immunogenic molecules on CSCs cytotoxic treatments, but molecular mechanisms tive immunoregulatory molecule is represented by and, thus, to design new immunotherapy protocol underlying the resistance remain poorly defined. the indoleamine 2,3-dioxygenase (IDO), a molecule for GBM and/or CRC patients. The aim of this study was to identify molecular involved in the generation of immune tolerance. mechanisms involved in the acquisition of a radi- By RT-PCR a preferential increase of the mRNA oresistant phenotype in malignant gliomas through of this molecule in CSCs vs FBS tumor cells was comparative assessments of genome-wide transcrip- detected after IFN-γ treatment. We assessed the tional profiling of non-irradiated GICs and their in functional activity of IDO determining, by a col- vitro created radioresistant derivatives using Gene- orimetric assay, IDO-mediated tryptophan catabo- Chip Human Gene 1.0 ST arrays (Affymetrix). lism in culture supernatants. In most (6/8) cases a Our analysis revealed that the exposure to clini- higher activity was associated with IFN-γ treated cally relevant doses of ionizing radiation induces CSCs but not with their FBS tumor counterparts. differential expression of genes that are involved in Interestingly, IDO-mediated activity was inhibited immune signaling and migration/adhesion. by treatment of these cells with the specific inhibi- The results indicate that radiation-induced changes tor 1-Methyl Tryptophane (1-MT). Furthermore, by in adhesion and immune signaling molecule ex- blocking IDO in GBM CSCs we could both recover pression might lead to tumor progression, immune T-cell proliferation during the co-culture with allo- response and inflammation via altered intracellu- geneic PBMCs from healthy donors and induce TH1 lar signaling pathways as well as cross-talk com- type responses in autologous settings. munication with the tumor microenvironment. In addition, we found that CRC CSCs expressed IL-4 This eventually limits the efficacy of local therapies and demonstrated its negative immunoregulatory and contributes to immune evasion mechanisms. 261 207 | Tumor Biology and Interaction with the Immune System 208 | Tumor Biology and Interaction with the Immune System Selective BRAF inhibition decreases tumor-resident lymphocyte frequencies in a mouse model of human melanoma Synchronous BRAF V600E and MEK inhibition leads to superior control of melanoma by limiting MEK inhibitor induced skin toxicity 1* 1* 1, 2, 3 Anna I. Hooijkaas , Jules Gadiot , Christian U. Blank 1* 1* 1, 2 * These authors contributed equally to this work Jules Gadiot , Anna I. Hooijkaas , Christian U. Blank 1 Division of Immunology and 2 Division of Medical Oncology, Netherlands Cancer Institute, Plesmanlaan 121, 1066 CX, Amsterdam, Netherlands * These authors contributed equally to this work 1 Division of Immunology and 2 Division of Medical Oncology, Netherlands Cancer Institute, Plesmanlaan 121, 1066 CX, Amsterdam, Netherlands The development of targeted therapies and im- -/- The MAP Kinase and PI3 Kinase pathways have Combining the selective BRAF and MEK-inhibi- munotherapies has markedly advanced the treat- BRAFV600E/PTEN melanomas. More strikingly, been identified as the most common pathways that tors led to superior long-term tumor control due ment of metastasized melanoma. Building on the PLX4720 treatment led to a decreased frequency of mediate oncogenic transformation in melanoma. to reduced MEK inhibitor induced skin toxicity. observation that immune recognition is a frequent tumor-resident T-cells, NK-cells, MDSCs and mac- Therefore, the majority of compounds developed Histological analyses confirmed the skin protec- event in melanoma, a series of immunotherapeutic rophages, which could not be restored by the ad- for melanoma treatment target either one of these tive effect of BRAF inhibition towards the MEK approaches has been evaluated in clinical trials, dition of anti-CTLA-4 mAb. As this effect was not pathways. Beside such targeted therapies, immu- inhibitor induced skin toxicity. Analyses of pERK culminating in the first phase III study that showed observed upon treatment of BRAF-wildtype B16F10 notherapeutic approaches have shown promising levels within the keratinocytes could not convinc- an improved overall survival of melanoma patients tumors, we conclude that the decreased frequency results. A combination of targeted and/or immu- ingly explain the protective effect of BRAF inhibi- since twenty years. Furthermore, recent advanc- of immune cells correlates to BRAF inhibi- notherapies could potentially result in further im- tion. Analysis of tumor infiltrating T-cells, as well es in our understanding of the genetic lesions in tion in tumor cells and is not due to an off-target provement of treatment outcome. In order to pre- as gene-expression profiling of skin from BRAF human melanoma now also allow the specific tar- effect of PLX4720 on immune cells. Furthermore, clinically identify efficient treatment combinations and/or MEK inhibitor treated animals is currently geting of the signaling pathway alterations in this anti-CTLA-4 mAb treatment of inducible mela- and to optimize therapy protocols in terms of e.g. ongoing. V600E disease. While treatment with selective BRAF noma mice treated with PLX4720 did not result in sequence and timing, mouse models will be re- Our Tyr::CreER ;PTEN ;BRAF inhibitors (like vemurafenib or dabrafenib) leads enhanced tumor control, while anti-CTLA-4 mAb quired. melanoma model indicates that MEK inhibitor to high response rates but short response duration, treatment did improve the effect of tumor-vaccina- We the treatment can be intensified when combined with anti-CTLA-4 blocking therapies induce sustained tion in B16F10-inoculated mice. Tyr::CreER ;PTEN ;BRAF inducible mela- BRAF inhibition. Furthermore we envision that responses, but only in a limited number of patients. Our data suggest that for those patients in which noma model on a C57BL/6J background. Tumors this model is valuable for preclinical testing of com- The combination of these diametric treatment ap- vemurafenib treatment does not induce cell death, from this model harbor the BRAF proaches may further improve survival, but pre- this drug may negatively affect the immune activ- are PTEN-deficient, making them highly suitable clinical data concerning this approach is limited. ity within the tumor. Consequently, these patients for the testing of targeted therapies. inhibition can might not benefit from the addition of anti-CTLA-4 Selective inhibition of BRAF synergize with anti-CTLA-4 monoclonal antibody mAb treatment to selective BRAF inhibition. On a ment of melanoma bearing mice resulted in a strong (mAb) treatment, focussing on the interaction more general note, the potential effects of targeted decrease of tumor outgrowth, but tumor regression inhibitor PLX4720 and the therapy on the tumor-microenvironment should be was not observed. Targeting the downstream sign- immune system. In this study we used the immune taken into consideration in the design of clinical aling protein MEK by the inhibitor GSK1120212B trials combining targeted and immunotherapy. resulted in a stronger growth inhibition and even V600E We investigated whether BRAF V600E between the BRAF T2 -/- F-V600E/+ competent Tyr::CreER :PTENF ;BRAF in- V600E have T2 crossed F-/- and characterized F-V600E/+ V600E V600E -mutation and T2 F-/- F-V600E/+ inducible binations of different targeted therapies as well as combinations with immunotherapy. by PLX4720 treat- ducible melanoma mice of which all mice develop, limited regression of larger malignancies. However, within one month after tumor induction, a rapidly GSK1120212B led to the development of serious -/- 262 tumor growth, it did not induce cell death in growing BRAFV600E/PTEN melanoma with his- skin-toxicity comparable to the dose-limiting tox- tology similar to human spindle cell melanoma. icity that is observed in melanoma patients treated While PLX4720 treatment strongly decreased with MEK inhibitors. 263 209 | Tumor Biology and Interaction with the Immune System 210 | Tumor Biology and Interaction with the Immune System Human skin-derived and lymph node-resident dendritic cell Clinical implications of immune evasion in microsatellite- unstable colorectal cancer subsets display differential T-cell stimulatory activity and are differentially modulated by primary melanoma tumors and metastases in the sentinel lymph node 1 2 2 Department of Pathology, VU University medical center, Amsterdam, Netherlands 2 Department of Medical Oncology, VU University medical center, Amsterdam, Netherlands 3 Department of Surgical Oncology, VU University medical center, Amsterdam, Netherlands 1 1 1 Department of Applied Tumour Biology, Institute of Pathology, University of Heidelberg, Heidelberg, Germany and Collaboration Unit Applied Tumor Biology, German Cancer Research Center (DKFZ), Heidelberg, Germany 2 Department of Immunology, University of Pittsburgh, PA, USA Background and Aims: High level microsatellite detected in 35%, 12%, and 2% of HLA class II an- instability (MSI-H) is encountered in 10 to 15% of tigen-negative MSI-H CRC lesions. No significant all colorectal cancers (CRCs) as a result of DNA correlation between tumor stage and HLA class II Melanoma tumors escape immune surveillance and B7.H4 co-inhibitory receptors. These data thus mismatch repair deficiency. MSI-H CRC represents antigen status was observed; however, MSI-H CRC in early stages of their development through the support a dominant role for LN-resident DC subsets a valuable model for studies on tumor immunology lesions that harbored mutations of the HLA class release of suppressive factors that condition the in T-cell activation. and immune evasion, because well-defined MSI- II-regulatory genes displayed significantly higher primary tumor site and draining lymph nodes to ably, lower frequencies of the skin-derived subsets H-specific antigens directly result from mismatch numbers of tumor-infiltrating CD4-positive lym- tolerate and support invasion and metastasis. Most were found in tumor positive SLN, whereas their repair deficiency-induced mutations affecting mi- phocytes. notably, a reduced frequency and activation state phenotypic activation state was unaffected by SLN crosatellites in gene-encoding regions. We here Conclusions: Our results suggest that immune of dendritic cells (DC) in the initial tumor-draining status. The reverse was the case for the LN-resi- systematically analyzed MSI-H CRCs for the pres- evasion caused by abrogation of HLA class I and lymph node, the so-called sentinel lymph node dent subsets (both conventional and plasmacytoid) ence of immune evasion phenomena by examining II-mediated antigen presentation represents a (SLN), may well interfere with the activation of an- with unaffected frequencies but reduced activation genes coding for components of the cellular HLA common and functionally relevant phenomenon ti-tumor effector T-cells and thus contribute to the state in tumor positive SLN. Of note, CD83 levels class I and II antigen presentation machinery for occurring during the pathogenesis of MSI-H CRC. early metastatic events that characterize this tumor on LC in tumor negative SLN showed a significant structural alterations. The results were related to The absence of distant metastases in patients with type. We have analyzed DC subset frequencies and reverse correlation with Breslow thickness of the clinical and histopathological parameters. B2M mutation-positive CRC lesions underlines activation state by multicolor flow cytometry in primary tumor and increased with longer time in- Methods: Bioinformatics tools were used to iden- the clinical significance of B2M mutations for the SLN samples from untreated or saline-administered tervals between excision of the primary tumor and tify genes relevant for antigen processing and pres- natural course of the disease. Moreover, the obser- patients with stage I-III melanoma (n=27) who par- the SLN. These findings indicate a dominant sup- entation that encompassed coding microsatellites vation of increased T-cell infiltration in tumors har- ticipated in clinical trials on the effects of local im- pressive effect of the primary tumor on the activa- as mutational targets in mismatch repair-deficient boring mutations of HLA class II-regulatory genes munomodulation and identified and characterized tion state of skin-derived DC subsets in SLN and cancers. Microsatellites were identified in Beta2- suggests that HLA class II antigen-negative tumor two skin-derived and two LN-resident subsets (van metastasis-related suppression of SLN-resident DC microglobulin (B2M) and the HLA class II-regula- cell clones may be selected for in an environment de Ven et al. Blood 118:2502, 2011). subsets, and are in keeping with localized inhi- tory genes and examined for the presence of muta- enriched for anti-tumoral immune cells. Taken to- In a comparative study with skin-migrated DC, two bition by the tumors of their microenvironment. tions in a set of clinically well-characterized CRC gether, these data highlight that abrogation of HLA- Langer- Moreover, they suggest that primary melanoma- specimens. mediated antigen presentation is very frequent in hans Cells (LC) with intracellular Langerin and mediated suppression of activation and migration Results: MSI-H CRCs displayed truncating muta- MSI-H CRC lesions. Mismatch repair deficiency of cutaneous DC subsets enables local metastasis. tions of the B2M gene in approximately 30% of thus not only contributes to the generation of im- lesions, and B2M mutations were closely correlated munogenic frameshift peptide antigens, but also with a lack of HLA class I antigen expression on the to the abrogation of HLA class I- and II-mediated as CD14-BDCA3 CD103 and CD14 BDCA3 CD103 , tumor cell surface. Correlation with clinical data antigen presentation pathways. suggesting cross-priming ability. Despite their revealed that B2M mutation frequency increased higher maturation state, skin-derived DC (and LC with local tumor stage. However, B2M mutations in particular) proved inferior in T-cell induction were absent in distant metastasis-positive MSI-H and accompanying IFNγ release. This might be CRC lesions. Mutations inactivating the HLA class related to their higher expression levels of the B7.H1 II-regulatory genes RFX5, CIITA, and RFXAP were + CD1a subsets were identified as CD11c int hi E-Cadherin expression and as CD11c Dermal DC with variable expression of Langerin. Two other - CD1a LN-residing DC subsets were characterized hi 264 1 3 Mari F.C.M. van den Hout , Bas D. Koster , Alfons J.M. van den Eertwegh , Berbel Sluijter , 3 3 1 3 Barbara G. Molenkamp , Sybren Meijer , Rik J. Scheper , Paul A.M. van Leeuwen , Rieneke 2 3 2 van de Ven , M. Petrousjka van den Tol , and Tanja D. de Gruijl . 1 1 Matthias Kloor , Anita Voigt , Eva-Maria Surmann , Anna Tikidzhieva , Miriam Reuschen1 1 1 2 1 bach , Kathrin Bauer , Sara Michel , Soldano Ferrone , Magnus von Knebel Doeberitz - + lo + 265 211 | Tumor Biology and Interaction with the Immune System 212 | Tumor Biology and Interaction with the Immune System Cytokines in bone marrow and peripheral blood of breast cancer patients as the prognostic signs of tumor progression Investigation the interferon-alpha as a modifier of epithelial – mesenchymal transition of malignant cells in vitro 1 1 2 1 Yuri Kudryavets , Nadiia Semesiuk , Andrij Zhylchuk , Natalya Bezdenezhnykh , 1 2 1 Alexandra Lykhova , Victor Zhylchuk , Ada Vorontsova Yuri Kudryavets, Natalya Bezdenezhnykh, Alexandra Lykhova, Nadiia Semesiuk, Ada Vorontsova 1 R.E. Kavetsky Institute of Experimental Pathology, Oncology and Radiobiology NAS of Ukraine, Kyiv, Ukraine R.E. Kavetsky Institute of Experimental Pathology, Oncology and Radiobiology NAS of Ukraine, Kyiv, Ukraine 2 Rivne Region Hospital, Rivne, Ukraine 266 Breast cancer is the most frequent type of cancer in donors (<10 pg/ml). However, the TNF level more The understanding of the processes of epithelial to 41,3±1,2% - in IFN-modified); has been found a women. Despite the improvement in detection and than 150 pg/ml (134±30pg/ml) was observed mesenchymal transition (EMT) and mezenchymal- very interesting fact – the appearance of E-cadherin treatment, ~30% of newly diagnosed women with in 28,5% of breast cancer patients in peripheral epithelial transition (MET) to tumor progression positive K-562 cells after long-term treatment of cy- breast cancer will die. In most cases, death results blood only group of progression. At the same time and monitoring of these processes in clinical prac- tokine. This phenomenon associated with inhibi- from the dissemination of cancer cells through in BM such level of TNF was observed in 57,9% tice is very important today. Also very important tion of biological properties malignancy behavior lymphatic or blood vessels and the development of (197,7±27pg/ml) patients in group of progression is the search for modifiers of these processes, as it of tumor cells. distant metastases. The prognostic significance of compared with the 19% (110,3±19pg/ml; p<0,02) will provide new targets for treatment and help to From these data we can conclude that IFN can disseminated tumor cells (DTC) in the bone marrow cases in group of remission. change routine schemes of therapy. We think that be involved in the control of EMT/MET programs (BM) of breast cancer patients at present time is well Biological activity of CSFs in samples of plasma BM this modifier can be interferon-alpha (IFN). of tumor cell transdifferentiation because all the known. Yet, in many cases progression of tumor breast cancer patients was 540±33 U/ml and don’t In our study we have used as the experimental studied proteins and transcriptional factors are growth is not associated with the detection of DTC depend on the clinical stage of disease. However model of human tumor cells (nonsmall-cell lung markers of these processes. So the modifying in BM. It is not excluded that the level of particu- the level of these factors in peripheral blood in cancer cells of А-549 line, HeLa – cervical carci- action of IFN on the process of EMT may be a new lar cytokines may serve as the additional factors of breast cancer patients group of progression was noma, K-562 – chronic myelogenous leukemia) mechanism of its antitumor activity. prediction progression of primary tumor growth in significantly increased (at 72,5%) in 60% patients which were prolonged exposure with IFN. It was such patients. BM aspirates from 50 patients were in compare with that in group remission (p<0,01). shown that the long-term exposition of A-549 cells screened for DTC by immunocytochemistry with It is important that the increased levels of that to cytokine leads to reliable decrease in the number the pancytokeratin mAb clones AE1/AE3, according cytokines were associated with tumor recurrence of cells expressing vimentin and leads to strong to the ISHAGE recommendation. The levels of cy- even in the absence of DTC in the BM. increase in the number of cells, which express E- tokine (tumor necrosis factor - TNF, colony stimulat- The level of VEGF in BM plasma was significantly cadherin (from 22±1,3% in control to 63± 2,6% in ing factors – CSFs and interferon alpha - IFNa) and increased in all of patients regardless of their clini- IFN-modified). At the same time as revealed that it’s biological activity in plasma of peripheral blood cal status and was 295±55pg/ml and 322±56pg/ml the long-term exposition of A-549 cells to IFN leads and bone marrow were tested in vitro using stand- in group of progression and remission, respectively. to decrease N-cadherin-positive cells (from 100% in ard cell culture methods. All of the patients were Interesting that in a stage of disease progression control to 46± 4,1% in IFN-modified). Importantly divided in to two groups of clinical status: “progres- endogenous IFNa was detected in BM of 2 patients that there was a significant reduction in the level sion” group (23 patients with disease progression; (11%) only, however in patients of remission group of expression of EMT transcription factors Twist T1-4N0-2M0-1) and “remission” group (27 patients with IFNa was detected in BM of 26% cases (18±2,6IU/ and Slug in cells after long-term treatment of IFN. remission; T1-4N0-2M0). The level of VEGF in BM was ml) and in their blood elevated levels of IFNa The same data – increase of E-cadherin expression tested by ELISA. (19,4±26IU/ml) was determined in 69% of patients. and decrease of N-cadherin and Vimentin expres- DTC presence in samples of BM was associated Thus, detection DTC in bone marrow and deter- sion – we’ve got after prolonged treatment with with stage as a rule of tumor recurrence and was mination the level of TNF, IFN and CSFs in plasma IFN of other tumor cells, such as: HeLa (21,4±3,1% revealed in 50% breast cancer patients of “progres- peripheral blood and BM of breast cancer patients E-cadherin and 100% N-cadherin positive cells in sion” group. The level of TNF in peripheral blood could be very important complex of signs for prog- control, 93± 4,1% E-cadherin and 54,2± 4,4% N- of breast cancer patients was increased (more 60 nosis metastatic process and correction antitumor cadherin positive cells in IFN- modified) and K-562 pg/ml) in all cases compared with that of healthy individualized therapy. (88±3,6% Vimentin positive cells in control and 267 213 | Tumor Biology and Interaction with the Immune System 214 | Tumor Biology and Interaction with the Immune System Dynamic Capture of Tumor Cell Propagation with Associated Stromal and Immune Responses in CNS Tumor Microenvironment Different tumor suppressors control expression of ULBP2, an innate stress ligand of the activating lymphocyte receptor NKG2D Agne Petrosiute, Jay Meyers, Deborah Barkauskas, Joseph Nthale, Alex Y. Huang Anja Heinemann , Fang Zhao , Alexander Steinle , Sven Diederichs , Dirk Schadendorf , 1 Annette Paschen 1 1 2 3 1 Department of Pediatrics, Case Western Reserve University School of Medicine, Cleveland, Ohio, U.S.A. Ex vivo experimental systems often lack the neces- results directly demonstrate our ability to develop an in sary conditions to fully capture complex intercellular vivo imaging platform for not only tumor propagation communications between tumor cells and surround- studies, but also real-time monitoring of immunothera- ing tissues – a critical feature in understanding cancer peutic strategies in intact tissues of live experimental development and immune evasion. Common in vivo animals. imaging modality such as bioluminescence lacks the In order to extend our in vivo observations to include in- resolution necessary to discern subtle structural dif- terrogation of CNS tumor-associated immune respons- ferences and heterogeneity in the tumor niche, or to es, we employed syngeneic murine tumor systems visualize cellular activities on a single-cell level. On in which both adaptive and innate immunity can be the other hand, microscopic examinations of fixed assessed in the CNS tumor microenvironment. We specimens are devoid of the 3-dimensional context or focused on medulloblastoma (MB), the most common sequential evolution of tumor progression within the malignant pediatric CNS tumors with a propensity same host. These limitations are true not only for the for extracranial dissemination. We examined cellular understanding of anti-tumor immunity in the periph- mechanisms by which MB recruits and functionally ery, but especially true for studying anti-tumor immune tolerize cells of the immune systems such as microglia, responses in the central nervous system (CNS). peri-vascular macrophages, dendritic cells and antigen- Recent new insights have come from studies involving specific / antigen-non-specific lymphocytes in CNS mi- the use of intravital 2-photon laser scanning microsco- croenvironment. Using murine MB cell lines derived py (2P-LSM), a technique which allows deep visualiza- from Patched /p53 mice, we assessed immune cell tion (>300um) with single-cell resolution (<1um), thus infiltration of intracranially implanted MB tumors by enables direct observation of cellular behavior in intact flow cytometry, immunohistology and 2P-LSM. Using tissues at a suitable dynamic spatial-time resolution. cell-specific fluorescent reporter mice such as CX3CR1- Our laboratory studies the role of tumor microenviron- GFP or CD11c-GFP recipient mice, we found infiltra- ment in shaping immune repertoire and develops strat- tion of CX3CR1 , CD11b /CCR2 , F4/80+ cells, and -/- + + + + + + egies to modify tumor microenvironment to enhance CD4 CD25 Foxp3 T-cells in response to implanted anti-tumor immunity. One such example is our recent MB tumor cells. We are currently testing the effect of collaborative study with investigators at the Cleveland tumor-associated chemokines in orchestrating these Clinic focused on glioblastoma multiforme (GBM), cellular recruitments, and how perturbation of the which is thought to contain a cellular hierarchy with chemokine axis may affect outcome of anti-tumor im- + a CD133 sub-population representing self-renewing munity. and tumorigenic GBM stem cells (GSCs). In a xeno- Using 2P-LSM and a CNS-inflammatory model, the transplant model, a single GSC was capable of tumor experimental autoimmune encephalomyelitis, we initiation in the mouse brain. To directly test the rela- have also begun to undercover the role of perivascular + tive tumorigenic potential of GSCs (CD133 ) and non-) 268 +/- antigen-presenting cells and microglia in guiding the GSCs (CD133 , we inoculated paired tumor populations recruitment of CNS-bound lymphocytes. The combina- from the same primary GBM tumor cells and monitored tion of all of these approaches – in situ dissection of tumor competition by serial 2P-LSM through implanted tumor biology and immune cell recruitment – holds cranial windows. Serial 2P-LSM imaging experiments promise to enhance our ability to harness immune cell- showed that after 35 days, in vivo GBM formation was based therapy against tumor cells that have found a driven exclusively by GSCs but not non-GSCs. These sanctuary site within the CNS. 1 Department of Dermatology, University Hospital Essen, Essen, Germany 2 Institute for Molecular Medicine, Goethe-University, Frankfurt, Germany 3 Molecular RNA Biology & Cancer, DKFZ and Department of Pathology, University of Heidelberg, Heidelberg, Germany NKG2D is a receptor of Natural Killer (NK) cells which leads to p53 activation. Molecular analysis and different subsets of T lymphocytes, involved revealed that the negative effect of Nutlin-3a on in the detection of stressed abnormal self, as it ULBP2 expression was absolutely dependent on p53 occurs upon infection or malignant transforma- activation and was, at least in part, due to the p53- tion. NKG2D binds to multiple surface ligands, mediated increase of cellular miR-34 levels. Taken structurally related to classical MHC class I mol- together our data demonstrate that members of the ecules that belong to either the MIC (MICA, MICB) tumor-suppressive miR-34 family and the tumor or the ULBP (ULBP1-6) molecule family. A variety suppressor p53 control ULBP2 expression levels, of human malignancies show surface expression which strengthens the role of this specific NKG2D of MIC and ULBP molecules, sensitizing them for ligand in innate anti-tumor immunity. NK cell- and T-cell-mediated cytotoxicity. However, tumor cells also escape from NKG2D-dependent immune responses by proteolytic ligand shedding. Recently, we demonstrated expression of the NKG2D ligand ULBP2 on human melanoma cells in vitro and in situ. Furthermore, we measured elevated levels of shed soluble ULBP2 in sera from melanoma patients that turned out to be an independent predictor of poor prognosis even in early disease stage. Based on these findings we asked for the regulation of ULBP2 expression in melanoma cells. We observed that the tumor-suppressive microRNAs (miRNAs) miR-34a and miR-34c directly control ULBP2 expression. Transfection of tumor cells with specific miR-34 inhibitors increased ULBP2, whereas transfection of miR-34 mimics downregulated ULBP2 levels which in turn diminished tumor cell recognition by NK cells. Treatment of tumor cells with the small molecule inhibitor Nutlin-3a also decreased ULBP2 expression. Nutlin-3a disrupts the MDM2-p53 interaction 269 215 | Tumor Biology and Interaction with the Immune System 216 | Tumor Biology and Interaction with the Immune System Regulation of natural killer cell development and antitumor immunity by the interleukin 15 system Zoledronate Nanoparticles Repolarize Neutrophils in Tumor Microenvironment to Impair Growth of Tumors Gilbert A. Lee, Yae-Huei Liou, Szu-Wen Wang, Si-Tse Jiang, Nan-Shih Liao Sibel Mete , Sushil Kumar , and Reto Schwendener Institute of Molecular Biology, Academia Sinica, Taipei, Taiwan 1 1 1 1 Institute of Molecular Cancer Research, University of Zurich, Winterthurerstr. 190, Building Y 17, Floor K, CH-8057 Zürich, Switzerland Natural killer (NK) cells are innate immune cells Zoledronate, a drug used in osteoporosis and bone nate, as their depletion renders zoledronate ineffec- involved in tumor surveillance. The development metastases, is known to restrict tumor growth tive in restricting tumor growth. and effector function of NK cells require interleu- by virtue of its capacity to inhibit angiogenesis. Furthermore, we found that administration of kin 15 (IL-15) signal, which is “trans-presented” to Notably, a large percentage of tumors are resist- recombinant IL-15 receptor (IL-15R)βγ on NK cells by IL-15Rα on ant to angiogenesis inhibitors and therefore require animals reduced the therapeutic efficacy of the neighboring cells. Because the IL-15Rα intracellu- alternative therapeutic approaches. Here we show drug by impairing the increased neutrophil influx lar (IC) domain has the capacity to recruit signaling that zoledronate in nanoparticles (nanozol) inhib- in the tumors. Accordingly, in cell culture-based molecules, we generated knock-in (KI) and trans- its growth of tumors that are refractory to anti- assays, we showed that TGF-beta levels influence genic (Tg) mice that lack the IC domain to assess in- angiogenic drugs by polarizing neutrophils to the the neutrophil chemotaxis towards tumor derived dependently the role of the IL-15 trans-presentation anti-tumorigenic N1 phenotype. factors. level. In this study, we found that the IL-15Rα level Nanozol inhibits tumor growth in two different Collectively, our findings reveal novel antitumo- on bone marrow-derived dendritic cells (BMDCs) syngeneic mouse tumor models namely Lewis lung rigenic properties of zoledronate and nanozol that generated by KI and Tg mice determines the level carcinoma (LLC) which is refractory to anti-angi- may serve as a basis for the design of more effective of Stat5 phosphorylation in NK cells, thus offer- ogenic drugs and MC-38 colon carcinoma. Treat- immunotherapeutic approaches against chemore- ing the opportunity to study quantitative effects ment with nanozol was more effective in inhibiting sistant tumors. of IL-15 trans-presentation on NK cell development tumor growth in both models when compared with and function in vivo. We also found that NK cell free zoledronate. Both zoledronate and nanozol homeostasis, mature NK cell differentiation, and treated tumors showed an increase in apoptotic cell acquisition of effector functions require different death, accounting for the decreased growth rate. levels of IL-15 trans-presentation input to achieve Upon extensive analysis, we identified a marked- full status. In order to investigate the effects of ly expanded population of neutrophils in tumors IL-15 trans-presentation level in anti-tumor immu- treated by zoledronate and its nanoparticles. nity in vivo, we established the tumor inoculation Differential expression analyses revealed that these experiment. Our preliminary data showed that the neutrophils regained an N1-type antitumoral phe- -/- notype, showing an increased expression of pro- mice in comparison to WT mice. We will assess the inflammatory and immunostimulatory mediators. role of the IL-15 system in anti-tumor immunity. Furthermore, these cells displayed an enhanced growth of B16/OVA melanoma increased in IL15 TGF-beta to zoledronate-treated + ability to stimulate CD8 T-cell proliferation and IFN-γ production. Study of pharmacological inhibition of neutrophils confirmed that neutrophils are essential for the antitumorigenic effects of zoledro270 271 Imprint Postal Address CIMT - Association for Cancer Immunotherapy c/o TRON Langenbeckstr. 1, Building 708 55131 Mainz Germany Telephone: +49-06131-17-8166 Telefax: +49-06131-17-8172 Website: www.cimt.eu E-Mail: [email protected] Register of Associations Amtsgericht Mainz: VR 3783 Concept and Design LABOR − Agentur für moderne Kommunimation GmbH Rheinallee 88 / Geb. 25 55120 Mainz, Germany Telephone: 06131 - 30 46 76 2 Website: www.das-labor.net © Immunologische Krebs-Therapie e.V. (Association for Cancer Immunotherapy). All rights reserved. 272 273