Inactivation of the gbpA Gene of Streptococcus mutans Alters Structural and Functional Aspects of Plaque Biofilm Which Are Compensated by Recombination of the gtfB and gtfC Genes

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Infection and Immunity, August 1999, p. 3909-3914, Vol. 67, No. 8
0019-9567/99/$04.00+0
Copyright © 1999, American Society for Microbiology. All rights reserved.

Inactivation of the gbpA Gene of Streptococcus mutans Alters Structural and Functional Aspects of Plaque Biofilm Which Are Compensated by Recombination of the gtfB and gtfC Genes

Karsten R. O. Hazlett, Joseph E. Mazurkiewicz, and Jeffrey A. Banas^*

Department of Microbiology, Immunology, and Molecular Genetics, Albany Medical College, Albany, New York 12208

Received 5 March 1999/Returned for modification 4 May 1999/Accepted 27 May 1999

Inactivation of the gbpA gene of Streptococcus mutans increases virulence in a gnotobiotic rat model and also promotes invivo accumulation of organisms in which gtfB and gtfC have recombinedto reduce virulence (K. R. O. Hazlett, S. M. Michalek, and J.A. Banas, Infect. Immun. 66:2180-2185, 1998). These changes invirulence were hypothesized to result from changes in plaque structure.We have utilized an in vitro plaque model to test the hypothesisthat the absence of GbpA alters S. mutans plaque structure andthat the presence of gtfBC recombinant organisms within a gbpAbackground restores a wild-type (wt)-like plaque structure. Whengrown in the presence of sucrose within hydroxyapatite-coatedwells, the wt S. mutans plaque consisted primarily of large aggregateswhich did not completely coat the hydroxyapatite surface, whereasthe gbpA mutant plaque consisted of a uniform layer of smalleraggregates which almost entirely coated the hydroxyapatite. If25% of the gbpA mutants used as inoculum were also gtfBC recombinants(gbpA/25%gtfBC), a wt-like plaque was formed. These changes inplaque structure correlated with differences in susceptibilityto ampicillin; gbpA plaque organisms were more susceptible thanorganisms in either the wt or gbpA/25%gtfBC plaques. These dataallow the conclusion that GbpA contributes to S. mutans plaquebiofilm development. Since the changes in plaque structure detailedin this report correlate well with previously observed changesin virulence, it seems likely that S. mutans biofilm structureinfluences virulence. A potential model for this influence, whichcan account for the gtfBC recombination compensating gbpA inactivation,is that the ratio of glucan to glucan-binding protein is a criticalfactor in plaquedevelopment.

^* Corresponding author. Mailing address: Department of Microbiology, Immunology, and Molecular Genetics, Albany Medical College,Albany, NY 12208. Phone: (518) 262-6286. Fax: (518) 262-5748.E-mail: Jeff_Banas{at}ccgateway.amc.edu.

Present address: Center for Microbial Pathogenesis, University of Connecticut Health Center, Farmington, CT06032.

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