Phollow: Visualizing Gut Bacteriophage Transmission within Microbial Communities and Living Animals

Bacterial viruses (known as "phages") shape the ecology and evolution of microbial communities, making them promising targets for microbiome engineering. However, knowledge of phage biology is constrained because it remains difficult to study phage transmission dynamics within multi-member...

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Published inbioRxiv
Main Authors Ortiz de Ora, Lizett, Wiles, Elizabeth T, Zünd, Mirjam, Bañuelos, Maria S, Haro-Ramirez, Nancy, Suder, Diana S, Ujagar, Naveena, Angulo, Julio Ayala, Trinh, Calvin, Knitter, Courtney, Gonen, Shane, Nicholas, Dequina A, Wiles, Travis J
Format Journal Article
LanguageEnglish
Published United States 13.06.2024
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Summary:Bacterial viruses (known as "phages") shape the ecology and evolution of microbial communities, making them promising targets for microbiome engineering. However, knowledge of phage biology is constrained because it remains difficult to study phage transmission dynamics within multi-member communities and living animal hosts. We therefore created "Phollow": a live imaging-based approach for tracking phage replication and spread in situ with single-virion resolution. Combining Phollow with optically transparent zebrafish enabled us to directly visualize phage outbreaks within the vertebrate gut. We observed that virions can be rapidly taken up by intestinal tissues, including by enteroendocrine cells, and quickly disseminate to extraintestinal sites, including the liver and brain. Moreover, antibiotics trigger waves of interbacterial transmission leading to sudden shifts in spatial organization and composition of defined gut communities. Phollow ultimately empowers multiscale investigations connecting phage transmission to transkingdom interactions that have the potential to open new avenues for viral-based microbiome therapies.
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ISSN:2692-8205
2692-8205
DOI:10.1101/2024.06.12.598711