| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 2039095 | Cell Reports | 2016 | 8 Pages |
•Tn-seq identifies a regulator, OhrR, involved in V. cholerae pathogenesis•V. cholerae uses AphB and OhrR to control virulence•AphB and OhrR monitor redox-potential changes and respond with different kinetics•This regulation enables V. cholerae to optimize initial colonization
SummaryBacterial pathogens utilize gene expression versatility to adapt to environmental changes. Vibrio cholerae, the causative agent of cholera, encounters redox-potential changes when it transitions from oxygen-rich aquatic reservoirs to the oxygen-limiting human gastrointestinal tract. We previously showed that the virulence regulator AphB uses thiol-based switches to sense the anoxic host environment and transcriptionally activate the key virulence activator tcpP. Here, by performing a high-throughput transposon sequencing screen in vivo, we identified OhrR as another regulator that enables V. cholerae rapid anoxic adaptation. Like AphB, reduced OhrR binds to and regulates the tcpP promoter. OhrR and AphB displayed differential dynamics in response to redox-potential changes: OhrR is reduced more rapidly than AphB. Furthermore, OhrR thiol modification is required for rapid activation of virulence and successful colonization. This reveals a mechanism whereby bacterial pathogens employ posttranslational modifications of multiple transcription factors to sense and adapt to dynamic environmental changes.
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