ICP1 bacteriophage treatment antagonizes colonization of the zebrafish larval intestine by Vibrio cholerae
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Outbreaks of cholera pose a major threat to human health. Currently, antibiotics are the most effective treatment against the causative agent, the bacterium Vibrio cholerae . However, the use of antibiotics eventually leads to the emergence of resistant strains, which necessitates the need for alternative approaches. The use of bacteriophages to target the infection by antibiotic resistant bacteria is one promising alternative. While clearance of Vibrio cholerae with the use of phages has been performed on several animal models, none of these models are natural hosts of V. cholerae . Therefore, we set out to investigate the interaction between V. cholerae and bacteriophage ICP1 both in vitro and in vivo in a natural host, the zebrafish model, Danio rerio . To study the interplay between host, bacteria and phages we used a combination of light and ultrastructural imaging techniques, including confocal fluorescence microscopy, serial block face scanning electron microscopy (EM) imaging and cryogenic EM, which allowed us to investigate both the colonization process by V. cholerae and clearance by the ICP1 bacteriophage. In addition, we determined the effects of the microbiome on this treatment by using germ-free, conventionalized and monoassociated zebrafish larvae as a host. Independent of the presence and composition of microbiomes used here, V. cholerae efficiently colonized the larval intestine. Finally, we demonstrate significant in vivo clearance of V. cholerae N16961-dsRED by ICP1, underscoring the role of phage-bacteria dynamics in shaping pathogen colonization within the zebrafish larval host.
SIGNIFICANCE
Cholera remains a life-threatening disease that causes recurring outbreaks and significant mortality, particularly in developing and conflict-affected regions. As antimicrobial resistance continues to rise, there is an urgent need to better understand the ecological and microbial dynamics that govern Vibrio cholerae colonization and persistence. This research investigates how V. cholerae interacts with bacteriophages, the host environment, and the resident microbiota within a natural vertebrate host, offering new insights into the factors that influence pathogen clearance and shaping of the gut ecosystem during infection. The powerful combination of serial block-face scanning and cryogenic electron microscopy, fluorescence microscopy, and traditional colony/plaque counting methods revealed previously unobserved aspects of the interplay between host, pathogen, phages, and the microbiome, highlighting phage-driven clearance of V. cholerae during colonization.
