Sucrose selectively regulates Streptococcus mutans polysaccharide by GcrR

Streptococcus mutans (S. mutans) is the principal etiological agent in cariogenesis because of its ability to metabolize sucrose into extracellular polysaccharides (EPS). The response regulators GcrR and VicR could regulate EPS metabolism, but with opposing regulatory functions. However, the cooperative interactions between gcrR and vicR regulating sucrose-selective EPS metabolism have not been fully elucidated. First, we constructed several dual-mutant strains (vicR + gcrR+, vicR and gcrR overexpression; vicR + gcrR-, vicR overexpression and gcrR deficient; ASvicRgcrR+, vicR low-expression and gcrR overexpression; ASvicRgcrR-, vicR low-expression and gcrR deficient) to clarify gtfB/gtfC expression levels were modulated by gcrR regardless of the vicR gene expression levels. Next, we found gcrR deletion mutant (SmugcrR) displayed obvious auto-aggregation and bacterial cells were densely packed in enriched EPS induced by sucrose. In the contrast, SmugcrR biofilm showed very little carbohydrate-dependent aggregation in the absence of sucrose. The presence of sucrose amplifies the negative regulation of gcrR acting as a 'switch-off'. After sucrose induction, dexA gene expression was significantly enhanced in gcrR overexpression mutant (SmugcrR+). Furthermore, GcrR was shown to directly bind to the promoter region of the dexA gene. Taken together, our results reveal that GcrR interacts with VicR to block EPS biosynthesis via polysaccharide digestion by DexA, and that this process is induced in a sucrose-selective manner. Hence, targeting GcrR is a potential strategy for the management of dental caries.