Evolution of bacteriophages infecting Enterococcus from the human microbiome

مرکز و کتابخانه مطالعات اسلامی به زبان های اروپایی

منو

" Evolution of bacteriophages infecting Enterococcus from the human microbiome "
Wandro, Stephen Joseph Whiteson, Katrine

Document Type	:	Latin Dissertation
Language of Document	:	English
Record Number	:	903142
Doc. No	:	TL3dk3316p
Main Entry	:	Wandro, Stephen Joseph
Title & Author	:	Evolution of bacteriophages infecting Enterococcus from the human microbiome\ Wandro, Stephen JosephWhiteson, Katrine
College	:	UC Irvine
Date	:	2019
student score	:	2019
Abstract	:	Enterococcus can be both a friend and a foe in the human microbiome. As an opportunistic pathogen, Enterococcus is normally benign. However, Enterococcus is responsible for many hospital-acquired infections and has shown rising rates of vancomycin resistance. Bacteriophages (phages) could be an alternative to antibiotics to target these antibiotic resistant bacteria, but the evolutionary and phenotypic outcomes of phage-bacteria interactions need to be investigated more thoroughly. We begin by investigating the gut microbiome of preterm infants that had been exposed to antibiotics to learn about the scenarios in which Enterococcus blooms occur in the gut (Chapter 1). We show that antibiotic exposed gut microbiomes are dominated by facultative anaerobes such as Enterococcus and Enterobacteriaceae. Further, we show that the bacterial composition is correlated to the overall metabolite profile. Metabolomics is a powerful tool for investigating microbial metabolism, and we contribute to the effort of developing standardized practices for metabolomics in the human microbiome by showing that freezing microbial samples required for long term storage (Chapter 2). Next, we investigated how phages could be used as therapeutics for treating Enterococcus blooms and infections (Chapters 3, 4, and 5). When Enterococcus is grown with its phages in vitro, it evolves resistance to phage infection by mutating exopolysaccharide synthesis genes. These mutations alter the exopolysaccharides on the surface of the bacterial cell to prevent binding of phage. Further, this mechanism of resistance appears to be a general mechanism leading to resistance against a diverse array of phages. This work demonstrates that experimental evolution is a powerful tool for characterizing interactions between bacteria and phages.Phage therapy is often administered as a cocktail of multiple phages, but there are no rules or best practices described for combining phages to be most effective. We show that in vitro, Enterococcus phage cocktails are more effective at preventing the growth of phage-resistant mutants, but the composition of the cocktail is important. Genetically diverse phage cocktails performed better than cocktails of related phages. My work demonstrates some of the outcomes of phage-Enterococcus interactions and will move us closer to applying phage therapy to treat Enterococcus infections.
Added Entry	:	Whiteson, Katrine
Added Entry	:	UC Irvine