The role of the Streptococcus mutans glucosyltransferases in the sucrose‐dependent attachment to smooth surfaces: essential role of the gtfC enzyme

Abstract

Previous results have indicated that the glucosyltransferase activities of mutans streptococci are required for sucrose‐dependent colonization of tooth surfaces. We have constructed mutants of Streptococcus mutans GS5 that are altered in varying combinations of the three gtf genes present in this organism. A quantitative in vitro sucrose‐dependent attachment system was used to demonstrate that the inactivation of the gtfC gene drastically reduced adherence to smooth surfaces. By contrast, inactivation of the gtfB gene resulted in a smaller, but significant, reduction in attachment while the gtfD mutant was only marginally affected. Furthermore, production of only the glucosyltransferase C enzyme allowed for attachment although at reduced levels compared to the wild‐type organism. The results from reintroduction of single copies of each of the gtf genes into a mutant of strain GS5 lacking glucosyltransferase activity also demonstrated the crucial role of the glucosyltransferase C enzyme in colonization. These results suggest a unique role for the glucosyltransferase C enzyme in the sucrose‐dependent colonization of tooth surfaces by S. mutans strains.