SOX9 - Transcriptomics
Transcription
SOX9 - Transcriptomics
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SLUG and SOX9 Cooperatively Regulate Tumor Initiating Niche Factors in Breast Cancer Babak Behnam, MD, PhD Department of Genetics and Molecular Biology, Iran University of Medical Sciences [email protected] 3 Introduction • Metastasis is the major cause of cancer mortality • Metastasis is a multistage process • Successful initiation of metastatic growth, ‘metastatic colonization’, accomplished only by a minority of cancer cells that reach distant sites 4 Gupta & Massague 2006, and Valastyan & Weinberg 2011 Introduction • A small population of cancer stem cells is critical for metastatic colonization • 1889 Stephan Paget’s “Seed and Soil” hypothesis, today’s “Metastatic Tropism” - Seed: Cancer Stem Cells (CSCs) - Soil: Metastatic niche 5 Valastyan & Weinberg 2011, and Fidler I.J. 2003 Cancer Stem Cells • CSCs: Minority proportion of tumor mass • • • • • • Self-renewal Tumorigenicity Multilineage differentiation Migration Invasiveness Apoptosis resistance 6 Jordan C.T. et al. 2006 CSCs and Metastatic Colonization 7 Fazilaty, H. et al., Tumor Biol 2013 EMT, CSCs and Metastasis • Epithelial to Mesenchymal Transition • Embryonic morphogenesis • In adult: • Wound healing • Most pivotal escape mechanism of tumor cells • • • • Migration Invasiveness Apoptosis resistance Expression of Extracellular matrix (ECM) components 8 Thiery J.P. et al. 2009 EMT Inducers • EMT transcription factors (EMT-TFs) • SNAIL, SLUG, TWIST1, TWIST2, ZEB-1, ZEB-2, …. • Signaling pathways • Transforming growth factor-b (TGF-b) • WNT/b-catenin • ….. 9 Craene BD & Berx G 2013 SLUG and SOX9 Master TFs 10 SLUG and SOX9 Master TFs • Actions of key transcriptional regulators suffice to convert differentiated epithelial cells into long-term repopulating epithelial stem cells (SCs) • Autoregulatory program activated by Slug and Sox9 is involved in inducing and sustaining the SC state • Adult SCs/CSCs, similar to ES cells, maintain their SC state via master regulator-mediated autoregulatory networks 11 Guo et al., Cell 2012 Survival Rate Patients with primary tumors expressing high levels of both SLUG and SOX9 had a significantly lower overall survival rate than the rest of patients 12 Guo et al., Cell 2012 Metastatic Niche • Fertile microenvironment • Supports stem cell maintenance and manages cell function and proliferation • Cells, vascular networks, soluble factors, nutrients, metabolic components and extracellular matrix (ECM) • VEGF, MMPs, LOX 13 Psaila B. & Lyden D. 2009, and Hanahan D. & Weinberg R.A. 2011 ECM and Metastasis • Regulatory signals • Sophisticated organization • POSTN and TNC, as metastatic niche components for CSCs 14 Malanchi I. et al. 2012, Oskarsson T. et al. 2011 Periostin (POSTN) 15 Tenascin C (TNC ) 16 Link Between CSCs and Metastatic Niche Several leading edge studies confirm a connection between CSCs and metastatic niche Hypoxia inducible factors (HIFs) Transforming growth factor (TGF)-b 17 18 19 Fazilaty, H. et al., Tumor Biol 2013 20 Neovascular tips comprise micrometastatic niches enriched for POSTN and TGF-b1 21 Ghajar et al. Nature Cell Biology 2013 22 23 Fazilaty and Behnam, Cell Biology International 2014 Hypothesis Overexpression of SLUG and SOX9 transcription factors increases the expression of POSTN and TNC genes 24 Methodology • Cell culture • MDA-MB-231 cell line • MCF7 cell line • Lentiviral vectors and transduction containing SLUG and SOX9 genes & their knock down • Quantitative Real-time PCR • Check the expression of SLUG, SOX9, TNC and POSTN before and after transduction and knock down 25 Lentiviral constructs 26 Lentiviral constructs pWPXL-SOX9 27 Results 28 Overexpression of SLUG and SOX9 upregulates POSTN and TNC 29 MCF7 versus MDA-MB-231 MDA231 vs MCF7 100000 Relative Expression 80000 MCF-7 MDA-MB-231 60000 40000 20000 3 2 1 0 SLUG SOX9 POSTN 30 TNC Quantitative gene expression analysis MCF7 SLUG SOX9 POSTN TNC *** 300000 Relative Expression 200000 100000 *** *** ** 600 *** 400 ** 200 ** ** 6 4 2 0 empty MCF7-SLUG P-Value 0.0001 = ***, P-Value 0.001 = **, P-Value 0.01 = * MCF7-SOX9 31 MCF7-SLUG-SOX9 Knock-down of SLUG and SOX9 downrgulates POSTN and TNC 32 Sh-RNA Construct 33 Quantitative gene expression analysis MDA231 SLUG SOX9 POSTN TNC Relative Expression 1.5 1.0 ** 0.5 ** ** ** *** ** *** *** *** 0.0 empty MDA231-Sh-SLUG 34 MDA231-Sh-SOX9 *** *** *** MDA231-Sh-SLUG-SOX9 Discussion 35 Coexpression of SLUG-SOX9 and POSTN • SLUG and SOX9 expression may have synergistic effects • SLUG and SOX9 coexpression is required for POSTN and TNC upmost expression • POSTN is likely one of the most important factors regulated by SLUG and SOX9 36 Acknowledgment • Hassan Fazilaty, PhD student • IUMS Research deputy; Grant No. 17856 37 References: 1. 2. 3. 4. 5. Gupta GP and Massague´ J. Cancer metastasis: building a framework. Cell 2006; 127(4):679-95. Valastyan S and Weinberg RA. Tumor Metastasis: Molecular Insights and Evolving Paradigms. Cell 2011; 147(2):275-92. Fidler I J. The pathogenesis of cancer metastasis: the ‘seed and soil’ hypothesis revisited. Nature Reviews Cancer2003; 3(6):453-8. Jordan CT, Guzman ML, and Noble M. Cancer Stem Cells. N Engl J Med 2006; 355(12):1253-61. Thiery JP, Acloque H, Huang RY, Nieto MA. Epithelial-mesenchymal transitions in development and disease. Cell. 2009 Nov 25;139(5):87190. 6. Craene BD and Berx G. Regulatory networks defining EMT during cancer initiation and progression. Nat Rev Cancer. 2012 Dec 21;13(2):97110. 7. Takahashi K, Tanabe K, Ohnuki M, Narita M, Ichisaka T, Tomoda K, et al. Induction of Pluripotent Stem Cells from Adult Human Fibroblasts by Defined Factors. Cell 2007; 131(5):861-72. 8. Yang J, Mani SA, Donaher JL, Ramaswamy S, Itzykson RA, Come C, et al. Twist, a Master Regulator of Morphogenesis, Plays an Essential Role in Tumor Metastasis. Cell 2004; 117(7):927-39. 9. Lu X, Kang Y. Hypoxia apnd Hypoxia-Inducible Factors: Master Regulators of Metastasis. Clin Cancer Res. 2010;16(24):5928-35 10. Nieto MA The snail superfamily of zinc-finger transcription factors. Nat Rev Mol Cell Biol. 2002;3(3):155-66. 11. Guo W, Keckesova Z, Donaher JL, Shibue T, Tischler V, Reinhardt F, et al. Slug and Sox9 Cooperatively Determine the Mammary Stem Cell State. Cell 2012; 148(5):1015-28. 12. Psaila B, and Lyden D. The metastatic niche: adapting the foreign soil. Nat Rev Cancer 2009; 9(4):285-93. 13. Hanahan D, and Weinberg RA. Hallmarks of Cancer: The Next Generation. Cell 2011; 144(5):646-74. 14. Malanchi I, Santamaria-Martı´nez A, Susanto E, Peng H, Lehr HA, et al. Interactions between cancer stem cells and their niche govern metastatic colonization. Nature 2012; 481: 85–89. 15. Oskarsson T, Acharyya S, Zhang XH, Vanharanta S, Tavazoie SF, Morris PG, et al. Breast cancer cells produce tenascin C as a metastatic niche component to colonize the lungs. Nat Med 2011; 17(7):867-74. 16. Oskarsson T and Massague J. Extracellular matrix players in metastatic niches. EMBO J 2012; 31(2):254-6. 17. Serrano I, McDonald PC, Lock FE, Dedhar S. Role of the integrin-linked kinase (ILK)/Rictor complex in TGFβ-1-induced epithelialmesenchymal transition (EMT). Oncogene. 2013 Jan 3;32(1):50-60. 18. Ghajar CM, et al. (2013) The perivascular niche regulates breast tumour dormancy. Nat Cell Biol 15: 807–17. 19. Fazilaty H, Gardaneh M, Bahrami T, Salmaninejad A, Behnam B (2013) Crosstalk between breast cancer stem cells and metastatic niche: emerging molecular metastasis pathway? Tumour biology: the journal of the International Society for. Oncodev Biol Med 34: 2019–30. 20. Fazilaty, H., and Behnam, B. (2014). The perivascular niche governs an autoregulatory network to support breast cancer 38 metastasis. Cell biology international 38, 691-694. Thanks for your attention Any question? 39 Let Us Meet Again We welcome you all to our future conferences of OMICS International Please Visit: http://transcriptomics.conferenceseries.com/ http://conferenceseries.com/ http://www.conferenceseries.com/genetics-and-molecularbiology-conferences.php