Abstract
Reactive chlorine species (RCS) such as hypochlorous acid are powerful antimicrobial oxidants. Used extensively for disinfection in household and industrial settings (i.e. as bleach), RCS are also naturally generated in high quantities during the innate immune response. Bacterial responses to RCS are complex and differ substantially from the well characterized responses to other physiologically relevant oxidants, like peroxide or superoxide. Several RCS-sensitive transcription factors have been identified in bacteria, but most of them respond to multiple stressors whose damaging effects overlap with those of RCS, including reactive oxygen species and electrophiles. We have now used in vivo genetic and in vitro biochemical methods to identify and demonstrate that Escherichia coli RclR (formerly YkgD) is a redox-regulated transcriptional activator of the AraC family, whose highly conserved cysteine residues are specifically sensitive to oxidation by RCS. Oxidation of these cysteines leads to strong, highly specific activation of expression of genes required for survival of RCS stress. These results demonstrate the existence of a widely conserved bacterial regulon devoted specifically to RCS resistance.
Highlights
Reactive chlorine compounds are important natural antimicrobials produced by the immune system
The RclR-regulated rcl Locus Is Required for hypochlorous acid (HOCl) Survival— Microarray analyses in a number of Reactive chlorine species (RCS)-stressed E. coli strains revealed the massive up-regulation of three genes of unknown function ykgB, ykgI, and ykgC (20, 41, 42)
We have identified RclR as a transcriptional activator that relies on conserved redox-sensitive cysteine residues to sense RCS and control the expression of genes that contribute to the ability of E. coli to survive HOCl stress
Summary
Reactive chlorine compounds are important natural antimicrobials produced by the immune system. We have used in vivo genetic and in vitro biochemical methods to identify and demonstrate that Escherichia coli RclR (formerly YkgD) is a redox-regulated transcriptional activator of the AraC family, whose highly conserved cysteine residues are sensitive to oxidation by RCS. Oxidation of these cysteines leads to strong, highly specific activation of expression of genes required for survival of RCS stress. It is known that these responses depend on select transcription factors (e.g. OxyR, SoxR, PerR), which are able to sense particular oxidants, often through the oxidation state of conserved cysteine residues These regulators control the expression of genes that contribute directly to ROS detoxification or to the repair of ROS-mediated damage. These results suggest that we have identified an important member of the RCS stress response system in bacteria
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