Transition of Vibrio cholerae through a natural host induces resistance to environmental changes
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Abstract
Summary The pandemic-related strains of Vibrio cholerae are known to cause diarrheal disease in animal hosts. These bacteria must overcome rapid changes in their environment, such as the transition from fresh water to the gastrointestinal system of their host. To study the morphological adjustments during environmental transitions, we used zebrafish as a natural host. Using a combination of fluorescent light microscopy, cryogenic electron tomography and serial block face scanning electron microscopy, we studied the structural changes that occur during the infection cycle. We show that the transition from an artificial nutrient-rich environment to a nutrient-poor environment has a dramatic impact on the cell shape, most notably membrane dehiscence. In contrast, excreted bacteria from the host retain a uniform distance between the membranes as well as their vibrioid shape. Inside the intestine, V. cholerae cells predominantly colonized the anterior to mid-gut, forming micro-colonies associated with the microvilli as well as within the lumen. The cells retained their vibrioid shape but changed their cell-length depending on their localization. Our results demonstrate dynamic changes in morphological characteristics of V. cholerae during the transition between the different environments, and we propose that these structural changes are critical for the pathogen’s ability to colonize host tissues.
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- last seen: 2026-05-19T01:45:01.086888+00:00