Abstract
Pseudomonas aeruginosa ohrR and ospR are gene homologs encoding oxidant sensing transcription regulators. OspR is known to regulate gpx, encoding a glutathione peroxidase, while OhrR regulates the expression of ohr that encodes an organic peroxide specific peroxiredoxin. Here, we show that ospR mediated gpx expression, like ohrR and ohr, specifically responds to organic hydroperoxides as compared to hydrogen peroxide and superoxide anion. Furthermore, the regulation of these two systems is interconnected. OspR is able to functionally complement an ohrR mutant, i.e. it regulates ohr in an oxidant dependent manner. In an ohrR mutant, in which ohr is derepressed, the induction of gpx expression by organic hydroperoxide is reduced. Likewise, in an ospR mutant, where gpx expression is constitutively high, oxidant dependent induction of ohr expression is reduced. Moreover, in vitro binding assays show that OspR binds the ohr promoter, while OhrR binds the gpx promoter, albeit with lower affinity. The binding of OhrR to the gpx promoter may not be physiologically relevant; however, OspR is shown to mediate oxidant-inducible expression at both promoters. Interestingly, the mechanism of OspR-mediated, oxidant-dependent induction at the two promoters appears to be distinct. OspR required two conserved cysteines (C24 and C134) for oxidant-dependent induction of the gpx promoter, while only C24 is essential at the ohr promoter. Overall, this study illustrates possible connection between two regulatory switches in response to oxidative stress.
Highlights
OhrR is an organic peroxide-sensing repressor that belongs to the MarR superfamily of transcription factors [1,2,3]
The katB gene reported to be induced by oxidative stress including H2O2 and superoxide anion generator such as paraquat [17] was used to show that H2O2 and two superoxide anion generators i.e. paraquat and menadione used in this experiment were active
Pseudomonas aeruginosa possesses two organic hydroperoxide resistance regulators, OhrR and OspR, that belong to the OhrR super family of transcriptional regulators
Summary
OhrR is an organic peroxide-sensing repressor that belongs to the MarR superfamily of transcription factors [1,2,3]. Pseudomonas aeruginosa OhrR has been shown to regulate ohr, which encodes a peroxidase that uses thiol and/or lipoic acid as cofactor [1, 4,5,6,7]. OhrR Homologs in Pseudomonas aeruginosa aeruginosa ohr renders cells hypersensitive to organic peroxides [5]. The P. aeruginosa genome contains an ohrR homolog, ospR [8]. OspR has been shown to regulate the gpx-ospR operon [8]. Similar to an ohr deletion, mutation of gpx leads to a peroxide-sensitive phenotype [8]. OspR might regulate other genes involve in antibiotic resistance and pigment synthesis [8]
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