Characterization of Streptococcus mutans Strains Deficient in EIIAB Man of the Sugar Phosphotransferase System

Abstract

The phosphoenolpyruvate:sugar phosphotransferase system (PTS) is the major sugar uptake system in oral streptococci. The role of EIIAB ^Man (encoded by manL ) in gene regulation and sugar transport was investigated in Streptococcus mutans UA159. The manL knockout strain, JAM1, grew more slowly than the wild-type strain in glucose but grew faster in mannose and did not display diauxic growth, indicating that EIIAB ^Man is involved in sugar uptake and in carbohydrate catabolite repression. PTS assays of JAM1, and of strains lacking the inducible ( fruI ) and constitutive ( fruCD ) EII fructose, revealed that S. mutans EIIAB ^Man transported mannose and glucose and provided evidence that there was also a mannose-inducible or glucose-repressible mannose PTS. Additionally, there appears to be a fructose PTS that is different than FruI and FruCD. To determine whether EIIAB ^Man controlled expression of the known virulence genes, glucosyltransferases ( gtfBC ) and fructosyltransferase ( ftf ) promoter fusions of these genes were established in the wild-type and EIIAB ^Man -deficient strains. In the manL mutant, the level of chloramphenicol acetyltransferase activity expressed from the gtfBC promoter was up to threefold lower than that seen with the wild-type strain at pH 6 and 7, indicating that EIIAB ^Man is required for optimal expression of gtfBC . No significant differences were observed between the mutant and the wild-type background in ftf regulation, with the exception that under glucose-limiting conditions at pH 7, the mutant exhibited a 2.1-fold increase in ftf expression. Two-dimensional gel analysis of batch-grown cells of the EIIAB ^Man -deficient strain indicated that the expression of at least 38 proteins was altered compared to that seen with the wild-type strain, revealing that EIIAB ^Man has a pleiotropic effect on gene expression.