Novel Two-Component Regulatory System Involved in Biofilm Formation and Acid Resistance in Streptococcus mutans

doi:10.1128/JB.184.22.6333-6342.2002

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Journal of Bacteriology, November 2002, p. 6333-6342, Vol. 184, No. 22
0021-9193/02/$04.00+0 DOI: 10.1128/JB.184.22.6333-6342.2002
Copyright © 2002, American Society for Microbiology. All Rights Reserved.

Novel Two-Component Regulatory System Involved in Biofilm Formation and Acid Resistance in Streptococcus mutans

Yung-Hua Li,¹ Peter C. Y. Lau,¹ Nan Tang,¹ Gunnel Svensäter,² Richard P. Ellen,¹ and Dennis G. Cvitkovitch¹^*

Dental Research Institute, University of Toronto, Toronto, Ontario, Canada M5G 1G6,¹ Department of Oral Microbiology, Malmö University, S-21421 Malmö, Sweden²

Received 22 April 2002/ Accepted 31 July 2002

The abilities of Streptococcus mutans to form biofilms and tosurvive acidic pH are regarded as two important virulence determinantsin the pathogenesis of dental caries. Environmental stimuliare thought to regulate the expression of several genes associatedwith virulence factors through the activity of two-componentsignal transduction systems. Yet, little is known of the involvementof these systems in the physiology and pathogenicity of S. mutans.In this study, we describe a two-component regulatory systemand its involvement in biofilm formation and acid resistancein S. mutans. By searching the S. mutans genome database withtblastn with the HK03 and RR03 protein sequences from S. pneumoniaeas queries, we identified two genes, designated hk11 and rr11,that encode a putative histidine kinase and its cognate responseregulator. To gain insight into their function, a PCR-mediatedallelic-exchange mutagenesis strategy was used to create thehk11 (Em^r) and rr11 (Em^r) deletion mutants from S. mutans wild-typeNG8 named SMHK11 and SMRR11, respectively. The mutants wereexamined for their growth rates, genetic competence, abilityto form biofilms, and resistance to low-pH challenge. The resultsshowed that deletion of hk11 or rr11 resulted in defects inbiofilm formation and resistance to acidic pH. Both mutantsformed biofilms with reduced biomass (50 to 70% of the densityof the parent strain). Scanning electron microscopy revealedthat the biofilms formed by the mutants had sponge-like architecturewith what appeared to be large gaps that resembled water channel-likestructures. The mutant biofilms were composed of longer chainsof cells than those of the parent biofilm. Deletion of hk11also resulted in greatly diminished resistance to low pH, althoughwe did not observe the same effect when rr11 was deleted. Geneticcompetence was not affected in either mutant. The results suggestedthat the gene product of hk11 in S. mutans might act as a pHsensor that could cross talk with one or more response regulators.We conclude that the two-component signal transduction systemencoded by hk11 and rr11 represents a new regulatory systeminvolved in biofilm formation and acid resistance in S. mutans.

* Corresponding author. Mailing address: Rm. 449A, Dental Research Institute, University of Toronto, 124 Edward St., Toronto, Ontario, Canada M5G 1G6. Phone: (416) 979-4917, ext. 4592. Fax: (416) 979-4936. E-mail: dennis.cvitkovitch{at}utoronto.ca.

Journal of Bacteriology, November 2002, p. 6333-6342, Vol. 184, No. 22
0021-9193/02/$04.00+0 DOI: 10.1128/JB.184.22.6333-6342.2002
Copyright © 2002, American Society for Microbiology. All Rights Reserved.

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