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Investigating the Effect of Phage Therapy on the Gut Microbiome of Gnotobiotic ASF Mice

Mounting concerns about drug-resistant pathogenic bacteria have rekindled the interest in bacteriophages (bacterial viruses). As bacteria’s natural predators, bacteriophages offer a critical advantage over antibiotics, namely that they can be highly specific. This means that phage therapeutics can be designed to destroy only the infectious agent(s), without causing any harm to our microbiota. However, the potential secondary effects on the balance of microbiota through bacteriophage-induced genome evolution remains as one of the critical apprehensions regarding phage therapy. There exists a significant gap in knowledge regarding the direct and indirect effect of phage therapeutics on the microbiota. The aim of this thesis was to: (1) establish an in vivo model for investigation of the evolutionary dynamics and co-evolution of therapeutic phage and its corresponding host bacterium in the gut; (2) determine if phage therapy can affect the composition of the gut microbiota, (3) observe the differences of phage-resistant bacteria mutants evolved in vivo in comparison to those evolved in vitro. We used germ-free mice colonized with a consortium of eight known bacteria, known as the altered Schaedler flora (ASF). The colonizing strain of choice (mock infection) was a non-pathogenic strain E. coli K-12 (JM83) known to co-colonize the ASF model, which was challenged in vivo with T7 phage (strictly lytic). We compared the composition of the gut microbiota with that of mice not subject to phage therapy. Furthermore, the resistant mutants evolved in vivo and in vitro were characterized in terms of growth fitness and motility. / Thesis / Master of Applied Science (MASc) / Bacteriophages are viruses that infect bacteria. After their discovery in 1917, bacteriophages were a primary cure against infectious disease for 25 years, before being completely overshadowed by antibiotics. With the rise of antibiotic resistance, bacteriophages are being explored again for their antibacterial activity. One of the critical apprehensions regarding bacteriophage therapy is the possible perturbations to our microbiota. We set out to explore this concern using a simplified microbiome model, namely germ-free mice inoculated with only 8 bacteria plus a mock infection challenged with bacteriophage. We monitored this model for 9 weeks and isolated a collection of phage-resistant bacterial mutants from the mouse gut that developed post phage challenge, maintaining the community of mock infection inside the gut. A single dose of lytic phage challenge effectively decreased the mock infection without causing any extreme long-term perturbations to the gut microbiota.

Identiferoai:union.ndltd.org:mcmaster.ca/oai:macsphere.mcmaster.ca:11375/24242
Date January 2019
CreatorsGaneshan, Sharita
ContributorsHosseini-Doust, Zeinab, Biomedical Engineering
Source SetsMcMaster University
LanguageEnglish
Detected LanguageEnglish
TypeThesis

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