Posttranscriptional repression of Escherichia coli OmpF protein in response to redox stress: positive control of the micF antisense RNA by the soxRS locus.

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J Bacteriol. 1993 February; 175(4): 1026-1031

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Posttranscriptional repression of Escherichia coli OmpF protein in response to redox stress: positive control of the micF antisense RNA by the soxRS locus.

J H Chou, J T Greenberg and B Demple

Department of Molecular and Cellular Toxicology, Harvard School of Public Health, Boston, Massachusetts 02115.

ABSTRACT

The soxRS regulon is a cornerstone of the adaptive defense systemsof Escherichia coli against oxidative stress. Unexpectedly,activation of this regulon also enhances bacterial resistanceto multiple antibiotics that seem unrelated to oxygen radicals.We previously correlated this multiple antibiotic resistancewith a reduced rate of synthesis of the OmpF outer membraneporin that does not affect the OmpC or OmpA porins. Studiespresented here, with operon and gene fusions of ompF to lacZ,show that the soxRS-dependent repression of OmpF is achievedposttranscriptionally. We also show posttranscriptional repressionof OmpF mediated by the soxQ1 mutation, which maps to the marAlocus. These repressions are dependent on the micF gene, whichencodes a small RNA partially complementary to the 5' end ofthe ompF message. Northern (RNA) blotting experiments show thatmicF transcription is strongly inducible by the superoxide-generatingagent paraquat in a manner that depends completely on the soxRSlocus. The soxR-constitutive and soxQ1 mutations elevate theexpression of micF in the absence of redox stress. However,the antibiotic resistance mediated by a soxR-constitutive mutationwas only partially reversed upon deletion of micF. The soxRSregulon therefore includes other components that contributeto general antibiotic resistance, although the relation of thisphenotype to oxidative stress remains to be established.

J Bacteriol. 1993 February; 175(4): 1026-1031

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