Alexander Sulakvelidze
Transcription
Alexander Sulakvelidze
Intralytix, Inc Bacteriophages: Safety by Nature – Biological Control at Its Best Alexander Sulakvelidze, Ph.D. Intralytix, Inc. . 3rd International Symposium on Biological Control of Plant Bacterial Diseases (Biocontrol 2016) 11-14 April 2016, Belgrade, Serbia Intralytix, Inc Bacteriophages / Phages Intralytix, Inc Viruses that attack bacteria Estimated 3 billion years old Discovered by Frederick Twort (1915) and Felix d’Herelle (1917) D'Herelle coined the name bacteriophage (bacteria-eater) Most ubiquitous organisms in nature Highly specific for bacterial host Play a key role in maintaining balanced bacterial populations in all ecosystems where bacteria exist Some of the commercial phage products Intralytix, Inc Laboratoire du Bactériophage: Bacté-coli-phage, Bacté-rhino-phage, Bacté-intesti-phage, Bacté-pyo-phage, and Bacté-staphy-phage Eli Lily: Colo-lysate, Ento-lysate, Neiso-lysate, and Staphylo-lysate, Colo-jel, Ento-jel, and Staphylo-jel ImBio: Coli-protein, Samoneluese CMBP: PhagoBioDerm Eliava Institute: IntestiPhage, PyoPhage EBI Food Safety (now Micreos): Listex Intralytix, Inc: ListShield, EcoShield, SalmoFresh Phages are small… Intralytix, Inc … and they are the most ubiquitous organisms on Intralytix, Inc Earth 10 Phage per microbe In the U.S.A., approx. 3 x 109 coliphages shed per person per day 1 mL of non-polluted water contains 2x108 PFU of phages Total number of phages on Earth is estimated to be 1x1030 – 1x1032 (100 000 000 000 000 000 000 000 000 000 000 phages) - outweigh the world population of elephants by a thousand-fold or more Phages have been found in commercial sera and human vaccines Phages are common in human mouth, where they are harbored in dental plaque and saliva The second most abundant category of microorganisms in human GI tract (after bacteria). Phages are common in foods Intralytix, Inc Fresh ground beef and canned corned beef (likely 100%) Fresh pork sausage and chicken meat. 100% of examined fresh chicken and pork sausage contained phages Delicatessen meat Farmed freshwater fish, common carp and marine fish Oil sardines Raw skim milk Cheese Frozen mixed vegetables The levels ranged from ca. 4 x 1010 PFU/100 g of fresh chicken, up to 4 x 1010 PFU/100 g of fresh pork, and up to 3 x 1010 PFU/100 g of roast turkey breast samples. 67 – 83% of all animal feed, feed ingredients, and poultry diets examined by the Texas A&M contained phages (including samples stored at -20°C for 14 months) Potential Applications Food safety “Green” industrial and household cleaners / bio-pesticides Probiotic products / phage preparations for fine-tuning GI microbiome Cosmetics and dental care Pet food & food supplements Hospital decontamination & biofilm reduction Plant infections Animal health products (bacterins & drugs) Drugs / human therapeutics (e.g., wound infections) Diagnostic uses Phage enzymes Intralytix, Inc First Phage Product Approved by the FDA Intralytix, Inc This box contains a solution of 100% naturally occurring, Listeriamunching bacteriophages. Good to animals and plants. Good to the environment. And good to you. Safety by nature.TM Simple Application Intralytix, Inc Timing of Lysis Intralytix, Inc Source: Karam JD et al (ed.), Molecular Biology of Bacteriophage T4, ASM Press, Washington, DC Effect of phage treatment on L. monocytogenes levels in Intralytix, Inc (A) Lettuce, (B) Smoked salmon, and (C) Frozen entrees Perera et al. Food Microbiology, Volume 52, December 2015, Pages 42–48 EcoShield reduces E. coli O157:H7 levels in Intralytix, Inc ground beef stored refrigerated and frozen (Based on triplicate samples; bars = SEM) Approx. 94 - 98% reduction at all time points Effect of phage treatment on Salmonella incidence in chicken meat (86% reduction) Intralytix, Inc 86% reduction in positives Plate # 1, six positives: B8, C7, D6, E2, E5, F5 Plate # 2, five positives: B3, B5, C7, D6, F7 Phages: Safety By NatureTM Pros L. monocytogenes phages released and propagated in the environment as a result Safe and effective of ListShield’s being used in foodprocessing facilities was estimated, based Do not affect taste, appearance, or smell of foods on several “worst case scenarios,” to be No impact on label (in most cases) ca. 6 x 1011 PFU. This number represents ca. Do not alter Organic, Halal, or Kosher designation of foods 0.00000000000000000006% of the estimated 1032 phages naturally No adverse impact on normal microflora present in the environment Environmentally-friendly, GREEN Intralytix, Inc Flexibility to address bacterial resistance Target specific bacterial pathogens Cons Only effective against targeted pathogen Commonly used disinfectants may also inactivate phage Require refrigerated storage Intralytix, Inc From: Bacteriophage, Volume 3, issue 3 Panel A: SalmoFresh™ treated stainless steel and glass surfaces contaminated with serotype Kentucky S800; Panel B: SalmoFresh™ treated glass surfaces contaminated with serotypes Brandenburg S806 or Paratyphi B S661; Panel C: SalmoLyse™ treated glass surfaces contaminated with serotypes Brandenburg S806 or Paratyphi B S661; Panel D: SalmoLyse™ treated stainless steel and glass surfaces contaminated with serotype Kentucky S800. Phage cocktails can be rapidly updated Intralytix, Inc From: Woolston et al., Bacteriophage 2013; 3:e25697. Intralytix phages are produced using state-of-the-art Intralytix, Inc production technologies Intralytix, Inc Plant Applications Intralytix, Inc First plant application in 1925: Bacteriophages were first proposed to be potential agents for controlling bacterial diseases of plants (blackleg disease of potato) First field trial in 1935: Phages were successfully used to control Stewart's Disease in corn. Treating seeds resulted in a reduction of disease incidence from 18% (untreated) to 1.4% (phage). In the late 1960s and early 1970s, phages were used to reduce (by 86 to 100%) Bacterial Spot Disease of peach seedlings by Xanthomonas, and for managing other plant infections; e.g., E. amylovora-associated fire blight Additional examples of plant applications include application of bacteriophages for managing Ralstonia solanacearum and Xanthomonascampestris pv. vesicatoria, the two bacterial pathogens responsible for the two main diseases of tomato plants, known as Bacterial Wilt and Bacterial Spot, respectively Tomato plants treated with phages (center and right) vs. phage-free control (left) Intralytix, Inc Tomato plants treated with phages 3 and 5 days prior to inoculation with Ralstonia solanacearum (center and right, respectively) vs. phage-free control (left) Source: Jones et al., Bacteriophage, Volume 2, Issue 4, 2012 Phage Biocontrol of Plant Diseases: Intriguing but Intralytix, Inc not an easy Task Phage persistence / availability (e.g., Inactivation by UV light) Delivery optimization (translocate?) Bacterial resistance (field applications?) Cost Additional Reading Intralytix, Inc Elizabeth Kutter, Alexander Sulakvelidze. Bacteriophages: Biology and Applications. CRC Press, 2005 Jones et al. Considerations for using bacteriophages for plant disease control. Bacteriophage, Volume 2, Issue 4, 2012 For More Information Intralytix, Inc www.intralytix.com https://www.youtube.com/watch?v=fFoo1OVa11E https://www.youtube.com/watch?v=L3Ky3g4ZYQA Alexander “Sandro” Sulakvelidze [email protected] (+1) 410-625-2533 Safety By Nature™
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