Candice N. Churaman scite author profile

Vibrio cholerae must compete with other bacteria in order to cause disease. Here, we show that V. cholerae creates an alkaline environment, which is able to inhibit the growth of other enteric bacteria. We demonstrate that V. cholerae environmental alkalization is linked to the capacity of the bacteria to metabolize citrate. This behavior could potentially contribute to V. cholerae’s ability to colonize the human intestine.

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Vibrio cholerae alkalizes its environment via citrate metabolism to inhibit enteric growth

Kostiuk

Becker²,

Churaman

et al. 2022

Preprint

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Vibrio cholerae is a Gram-negative pathogen, living in constant competition with other bacteria in both marine environments and during human infection. One competitive advantage of V. cholerae is the ability to metabolize diverse carbon sources such as chitin and citrate. We observed that when V. cholerae strains were grown on a medium with citrate, the mediums chemical composition turned into a hostile alkaline environment for Gram-negative bacteria such as Escherichia coli and Shigella flexneri. We found that although the ability to exclude competing bacteria was not contingent on exogenous citrate, V. cholerae citrate metabolism mutants ΔoadA-1, ΔcitE, and ΔcitF mutants were not able to inhibit S. flexneri or E. coli growth. Lastly, we demonstrated that while the V. cholerae mediated increased medium pH was necessary for the enteric exclusion phenotype, secondary metabolites such as bicarbonate (protonated to carbonate in the raised pH) from the metabolism of citrate enhanced the ability to inhibit the growth of E. coli. These data provide a novel example of how V. cholerae outcompetes other Gram-negative bacteria.

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Candice N. Churaman

Vibrio cholerae Alkalizes Its Environment via Citrate Metabolism to Inhibit Enteric Growth In Vitro

Vibrio cholerae alkalizes its environment via citrate metabolism to inhibit enteric growth

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