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e NalC dependence of PCP induction of mexAB-oprM it seemed reasonable to suppose that PCP induction of the efflux operon followed from elevated armR expression and subsequent ArmR-dependent modulation of MexR repression of mexAB-oprM. Indeed, this was the conclusion of a recent study, published while this work was in progress, demonstrating that PCP induction of PA3720-armR expression results from PCP directly modulating NalC’s repression of this operon. Still, the requirement for ArmR in PCP-inducible mexAB-oprM expression was not assessed in that study and results presented here clearly demonstrate that PCP induction of the efflux operon occurs in the absence of the anti-repressor. While there seemed to be some reduction in the 7 Pentachlorophenol Induction of mexAB-oprM absolute levels of PCP-inducible mexAB-oprM expression in the absence of armR, all mutants lacking armR showed fold increases in expression of the efflux genes in the presence of PCP that were similar to wild type strain K767. While it is unlikely that elevated armR expression in PCP-treated P. aeruginosa would not contribute to mexAB-oprM expression as a result of ArmR modulation of MexR repressor activity, these results do indicate that there are other mechanisms by which PCP can promote mexAB-oprM expression, probably in parallel with the ArmR-dependent mechanism. Such a mechanism appears not to involve PA3720, whose function still remains to be elucidated, but does require MexR, which may respond to PCP. Given the observation that PCP does not impact MexR binding to the mexAB-oprM promoter containing DNA in vitro, one possibility is that P. aeruginosa exposure to PCP promotes in vivo production of MexR effector molecule that facilitate mexAB-oprM derepression. In this vein, it has been shown that MexR binding to the mexABoprM promoter region and its control of efflux gene expression is impacted by oxidative stress, MexR being a redox responsive regulator whose ability to bind and repress mexAB-oprM is compromised when the protein is oxidized. Thus, exposure to hydroperoxide oxidizes MexR and alleviates promoter binding in vitro and induces mexAB-oprM expression in vivo. One possibility, then, is that PCP exposure generates some form of oxidative stress in P. aeruginosa. Intriguingly, PCP has been shown to MedChemExpress RG-2833 dramatically increase O2 flux in P. aeruginosa, generating an oxidative stress that could impact MexR activity. Puzzlingly, PCP induction of mexAB-oprM is absent in nalC mutant K1454, despite the fact that efflux gene expression is less than what is seen in a mexR null strain while much of MexR is inactive as a repressor in K1454, being bound by ArmR, clearly some MexR repression of mexAB-oprM is still occurring and would, presumably, be susceptible to modulation by PCP. Still, there is some unexplained complexity to mexAB-oprM expression in a nalC strain given the greater impact of armR loss on efflux gene expression in a nalC background as compared to an otherwise wild type background where in absolute terms mexABoprM expression is less in a nalC DarmR mutant than a DarmR mutant. Whether this explains the anomaly, there is likely to be differences in the PubMed ID:http://www.ncbi.nlm.nih.gov/pubmed/22189973 expression of at least some genes in K2276 vs. K3145, with PA3720 presumably up-regulated in the former but not the latter and any other genes impacted by loss of nalC and/or upregulation of PA3720 differentially expressed in the two strains. How these might influence mexAB-oprM expression is uncertain. The mod

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