Inactivation of a Two-Component Signal Transduction System, SaeRS, Eliminates Adherence and Attenuates Virulence of Staphylococcus aureus

doi:10.1128/IAI.00322-06

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Infection and Immunity, August 2006, p. 4655-4665, Vol. 74, No. 8
0019-9567/06/$08.00+0 doi:10.1128/IAI.00322-06
Copyright © 2006, American Society for Microbiology. All Rights Reserved.

Inactivation of a Two-Component Signal Transduction System, SaeRS, Eliminates Adherence and Attenuates Virulence of Staphylococcus aureus

Xudong Liang,¹ Chuanxin Yu,¹ Junsong Sun,¹ Hong Liu,¹ Christina Landwehr,¹ David Holmes,² and Yinduo Ji¹^*

Department of Veterinary and Biomedical Sciences, College of Veterinary Medicine, University of Minnesota, 1971 Commonwealth Ave., St. Paul, Minnesota 55108,¹ Anti-Infective Research, GlaxoSmithKline Research and Development, 1250 S. Collegeville Rd., Collegeville, Pennsylvania 19426²

Received 27 February 2006/ Returned for modification 28 April 2006/ Accepted 9 May 2006

Staphylococcus aureus is a major human and animal pathogen.During infection, this organism not only is able to attach toand enter host cells by using its cell surface-associated factorsbut also exports toxins to induce apoptosis and kill invadedcells. In this study, we identified the regulon of a two-componentsignal transduction system, SaeRS, and demonstrated that theSaeRS system is required for S. aureus to cause infection bothin vitro and in vivo. Using microarray and real-time reversetranscriptase PCR analyses, we found that SaeRS regulates theexpression of genes involved in adhesion and invasion (suchas those encoding fibronectin-binding proteins and fibrinogen-bindingproteins) and genes encoding ${alpha}$ -, ß-, and ${gamma}$ -hemolysins.Surprisingly, we found that SaeRS represses the Agr regulatorysystem since the mutation of saeS up-regulates agrA expression,which was confirmed by using an agr promoter-reporter fusionsystem. More importantly, we demonstrated that inactivationof the SaeRS system significantly decreases the bacterium-inducedapoptosis and/or death of lung epithelial cells (A549) and attenuatesvirulence in a murine infection model. Moreover, we found thatinactivation of the SaeRS system eliminates staphylococcal adhesionand internalization of lung epithelial cells. We also foundthat both a novel hypothetical protein (the SA1000 protein)and a bifunctional protein (Efb), which binds to extracellularfibrinogen and complement factor C3, might partially contributeto bacterial adhesion to and invasion of epithelial cells. Ourresults indicate that activation of the SaeRS system may berequired for S. aureus to adhere to and invade epithelial cells.

* Corresponding author. Mailing address: Department of Veterinary and Biomedical Sciences, College of Veterinary Medicine, University of Minnesota, 1971 Commonwealth Ave., St. Paul, MN 55108. Phone: (612) 624-2757. Fax: (612) 625-5203. E-mail: jixxx002{at}umn.edu.

Editor: V. J. DiRita

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