Regulation of an antibiotic resistance efflux pump by quorum sensing and a TetR-family repressor inChromobacterium subtsugae
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Abstract
The soil bacterium Chromobacterium substugae uses a single LuxI-R-type quorum-sensing system, CviI-R, to regulate genes in a cell density-dependent manner. CviI synthesizes the signal N -hexanoyl-homoserine lactone (C6-HSL) and CviR is a C6-HSL-responsive cytoplasmic transcription regulator. C6-HSL-bound CviR activates dozens of genes, for example the cdeAB-oprM cluster coding for an efflux pump conferring antibiotic resistance. The cdeAB-oprM genes are also regulated by an antibiotic-responsive transcription factor, CdeR, which represses expression of these genes. We are interested in understanding how C. subtsugae integrates different environmental cues to regulate antibiotic resistance. In this study, we sought to delineate the mechanism of regulation of the cdeAB-oprM genes by CviR and CdeR. In recombinant E. coli, the cdeA promoter is activated by CviR and repressed by CdeR. We identify non-overlapping sequence elements in the cdeA promoter that are required for CviR activation and CdeR repression, respectively. We also examined the role of CdeR in modulating cdeA activation by C6-HSL in C. subtsugae . We show that CviR and CdeR can independently modulate transcription from the cdeA promoter in C. subtsugae , consistent with the conclusion that CviR and CdeR regulate the cdeAB-oprM genes by interacting directly with different binding sites in the cdeA promoter. These results contribute to a molecular understanding of how the cdeAB-oprM genes are regulated and provide new insight into how C. subtsugae integrates different environmental cues to regulate antibiotic resistance. Importance Many bacteria regulate antibiotic resistance in response to antibiotics and other cues from the environment. In many cases the regulatory mechanisms are best understood in the context of clinical isolates where mutations frequently emerge in resistance regulation pathways. However, an understanding of the role of antibiotic resistance regulators in integrating environmental information is less well understood. In the soil bacterium Chromobacterium subtsugae, an antibiotic-resistance gene cluster is regulated by population density and antibiotics through two different transcription factors; the quorum sensing signal receptor CviR and an antibiotic-responsive transcription factor CdeR. In this study, we show that these factors independently modulate the transcription of the antibiotic resistance genes and coordinate to ensure sensitive responses to changes in cell density. The results give new insight into antibiotic resistance regulation in C. subtsugae and contribute to a broader understanding of how bacteria optimize the regulation of antibiotic resistance in response to changes in the environment.
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