Identification of a Novel Two-Component Regulatory System That Acts in Global Regulation of Virulence Factors of Staphylococcus aureus

doi:10.1128/JB.183.4.1113-1123.2001

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Journal of Bacteriology, February 2001, p. 1113-1123, Vol. 183, No. 4
0021-9193/01/$04.00+0 DOI: 10.1128/JB.183.4.1113-1123.2001
Copyright © 2001, American Society for Microbiology. All rights reserved.

Identification of a Novel Two-Component Regulatory System That Acts in Global Regulation of Virulence Factors of Staphylococcus aureus

Jeremy M. Yarwood, John K. McCormick, and Patrick M. Schlievert^*

Department of Microbiology, University of Minnesota Medical School, Minneapolis, Minnesota 55455

Received 25 August 2000/Accepted 16 November 2000

We have previously demonstrated that the presence of oxygen is necessary for the production of toxic shock syndrome toxin1 (TSST-1) by Staphylococcus aureus in vitro. To investigate themechanism by which oxygen might regulate toxin production, weidentified homologs in S. aureus of the Bacillus subtilis resDEgenes. The two-component regulatory system encoded by resDE, ResD-ResE,has been implicated in the global regulation of aerobic and anaerobicrespiratory metabolism in B. subtilis. We have designated theS. aureus homologs srrAB (staphylococcal respiratory response).The effects of srrAB expression on expression of RNAIII (the effectormolecule of the agr locus) and on production of TSST-1 (an exotoxin)and protein A (a surface-associated virulence factor) were investigated.Expression of RNAIII was inversely related to expression of srrAB.Disruption of srrB resulted in increased levels of RNAIII, whileexpression of srrAB in trans on a multicopy plasmid resulted inrepression of RNAIII transcription, particularly in microaerobicconditions. Disruption of srrB resulted in decreased productionof TSST-1 under microaerobic conditions and, to a lesser extent,under aerobic conditions as well. Overexpression of srrAB resultedin nearly complete repression of TSST-1 production in both microaerobicand aerobic conditions. Protein A production by the srrB mutantwas upregulated in microaerobic conditions and decreased in aerobicconditions. Protein A production was restored to nearly wild-typelevels by complementation of srrAB into the null mutant. Theseresults indicate that the putative two-component system encodedby srrAB, SrrA-SrrB, acts in the global regulation of staphylococcalvirulence factors, and may repress virulence factors under low-oxygenconditions. Furthermore, srrAB may provide a mechanistic linkbetween respiratory metabolism, environmental signals, and regulationof virulence factors in S. aureus.

^* Corresponding author. Mailing address: Department of Microbiology, Medical School, University of Minnesota, Box 196 FUMC,420 Delaware St. SE, Minneapolis, MN 55455. Phone: (612) 624-9471.Fax: (612) 626-0623. E-mail: pats{at}lenti.med.umn.edu.

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