RT Journal Article SR Electronic T1 Species-specific quorum sensing represses the chitobiose utilization locus in Vibrio cholerae JF bioRxiv FD Cold Spring Harbor Laboratory SP 2020.04.16.045526 DO 10.1101/2020.04.16.045526 A1 Catherine A. Klancher A1 Jane D. Newman A1 Alyssa S. Ball A1 Julia C. van Kessel A1 Ankur B. Dalia YR 2020 UL http://biorxiv.org/content/early/2020/07/03/2020.04.16.045526.abstract AB The marine facultative pathogen Vibrio cholerae forms complex multicellular communities on the chitinous shells of crustacean zooplankton in its aquatic reservoir. V. cholerae-chitin interactions are critical for the growth, evolution, and waterborne transmission of cholera. This is due, in part, to chitin-induced changes in gene expression in this pathogen. Here, we sought to identify factors that influence chitin-induced expression of one locus, the chitobiose utilization operon (chb), which is required for the uptake and catabolism of the chitin disaccharide. Through a series of genetic screens, we identified that the master regulator of quorum sensing, HapR, is a direct repressor of the chb operon. We also found that the levels of HapR in V. cholerae are regulated by the ClpAP protease. Furthermore, we show that the canonical quorum sensing cascade in V. cholerae regulates chb expression in a HapR-dependent manner. Through this analysis we found that signaling via the species-specific autoinducer CAI-1, but not the inter-species autoinducer AI-2, influences chb expression. This phenomenon of species-specific regulation may enhance the fitness of this pathogen in its environmental niche.Importance In nature, bacteria live in multicellular and multispecies communities. Microbial species can sense the density and composition of their community through chemical cues using a process called quorum sensing (QS). The marine pathogen Vibrio cholerae is found in communities on the chitinous shells of crustaceans in its aquatic reservoir. V. cholerae interactions with chitin are critical for the survival, evolution, and waterborne transmission of this pathogen. Here, we show that V. cholerae uses QS to regulate the expression of one locus required for V. cholerae-chitin interactions.Competing Interest StatementThe authors have declared no competing interest.