An extracelluar protease, SepM, generates functional competence-stimulating peptide in Streptococcus mutans UA159.

Mohammad Shahnoor Hossain, Indranil Biswas

Journal of bacteriology 2012 Nov

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Cell-cell communication in Gram-positive bacteria often depends on the production of extracellular peptides. The cariogenic bacterium Streptococcus mutans employs so-called competence-stimulating peptide (CSP) to stimulate mutacin (bacteriocin) production and competence development through the activation of the ComDE two-component pathway. In S. mutans, CSP is secreted as a 21-residue peptide; however, mass spectrometric analysis of culture supernatant indicates the presence of an 18-residue proteolytically cleaved species. In this study, using a transposon mutagenesis screening, we identified a cell surface protease that is involved in the processing of 21-residue CSP to generate the 18-residue CSP. We named this protease SepM for streptococcal extracellular protease required for mutacin production. We showed that the truncated 18-residue peptide is the biologically active form and that the specific postexport cleavage is a prerequisite to activate the ComDE two-component signal transduction pathway. We also showed that the CSP and the mutacins are exported outside the cell by the same ABC transporter, NlmTE. Our study further confirmed that the ComDE two-component system is absolutely necessary for mutacin production in S. mutans.

Citation

Mohammad Shahnoor Hossain, Indranil Biswas. An extracelluar protease, SepM, generates functional competence-stimulating peptide in Streptococcus mutans UA159. Journal of bacteriology. 2012 Nov;194(21):5886-96