Richard W Mair

Publications (5)21.87 Total impact

• Article: CinA is regulated via ComX to modulate genetic transformation and cell viability in Streptococcus mutans.

  Richard W Mair, Dilani B Senadheera, Dennis G Cvitkovitch
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  ABSTRACT: The Streptococcus mutans ComX-regulon encompasses > 200 mostly uncharacterized genes, including cinA. Here we report that cinA is regulated by ComX in the presence of the competence stimulating peptide (CSP), wherein loss of CinA (strain SmuCinA) results in reduced transformability with or without added CSP by 74- and 15-fold, respectively (P < 0.003). In CSP-supplemented cultures, a two-fold increase in cell viability was noted for SmuCinA relative to UA159 (P < 0.002), suggesting CinA's involvement in the CSP-modulated cell killing response. Relative to UA159, loss of CinA also rendered the mutant hypersensitive to killing by methyl methanesulfonate (MMS), which impairs homologous recombination. Despite our use of a non-polar mutagenesis strategy to knockout cinA, which is the first gene of the multicistronic operon harboring cinA, we noted a drastic reduction in recA expression. By using a CinA-complemented mutant, we were able to partially, but not completely restore all phenotypes to UA159 levels. Complementation results suggested that although cinA participates in modulating competence, viability and MMS tolerance, genes downstream of the cinA transcript may also regulate these phenotypes, a finding that warrants further examination. This is the first report that describes a role for S. mutans' CinA in contending with DNA damage, genetic transformation and cell survival.
  FEMS Microbiology Letters 03/2012; 331(1):44-52. · 2.04 Impact Factor
• Article: The LiaFSR system regulates the cell envelope stress response in Streptococcus mutans.

  Prashanth Suntharalingam, M D Senadheera, Richard W Mair, Céline M Lévesque, Dennis G Cvitkovitch
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  ABSTRACT: Maintaining cell envelope integrity is critical for bacterial survival, including bacteria living in a complex and dynamic environment such as the human oral cavity. Streptococcus mutans, a major etiological agent of dental caries, uses two-component signal transduction systems (TCSTSs) to monitor and respond to various environmental stimuli. Previous studies have shown that the LiaSR TCSTS in S. mutans regulates virulence traits such as acid tolerance and biofilm formation. Although not examined in streptococci, homologs of LiaSR are widely disseminated in Firmicutes and function as part of the cell envelope stress response network. We describe here liaSR and its upstream liaF gene in the cell envelope stress tolerance of S. mutans strain UA159. Transcriptional analysis established liaSR as part of the pentacistronic liaFSR-ppiB-pnpB operon. A survey of cell envelope antimicrobials revealed that mutants deficient in one or all of the liaFSR genes were susceptible to Lipid II cycle interfering antibiotics and to chemicals that perturbed the cell membrane integrity. These compounds induced liaR transcription in a concentration-dependent manner. Notably, under bacitracin stress conditions, the LiaFSR signaling system was shown to induce transcription of several genes involved in membrane protein synthesis, peptidoglycan biosynthesis, envelope chaperone/proteases, and transcriptional regulators. In the absence of an inducer such as bacitracin, LiaF repressed LiaR-regulated expression, whereas supplementing cultures with bacitracin resulted in derepression of liaSR. While LiaF appears to be an integral component of the LiaSR signaling cascade, taken collectively, we report a novel role for LiaFSR in sensing cell envelope stress and preserving envelope integrity in S. mutans.
  Journal of bacteriology 03/2009; 191(9):2973-84. · 3.94 Impact Factor
• Source

  Available from: pnas.org

  Article: Streptococcal viability and diminished stress tolerance in mutants lacking the signal recognition particle pathway or YidC2.

  Adnan Hasona, Paula J Crowley, Celine M Levesque, Richard W Mair, Dennis G Cvitkovitch, Arnold S Bleiweis, L Jeannine Brady
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  ABSTRACT: The signal recognition particle (SRP)-translocation pathway is conserved in all three domains of life and delivers membrane and secretory proteins to the cytoplasmic membrane or endoplasmic reticulum. We determined the requirement in the cariogenic oral pathogen Streptocococcus mutans of the three universally conserved elements of the SRP pathway: Ffh/SRP54, scRNA, and FtsY/SRalpha. Previously, we reported that insertional interruption of S. mutans ffh was not lethal, but resulted in acid sensitivity. To test whether S. mutans could survive extensive disruption of the SRP pathway, single and double deletions of genes encoding Ffh, scRNA, and FtsY were generated. Without environmental stressors, all mutant strains were viable, but unlike the wild-type, none could initiate growth at pH 5.0 or in 3.5% NaCl. Survival of challenge with 0.3 mM H(2)O(2) was also diminished without ffh. Members of the YidC/Oxa1/Alb3 family are also ubiquitous, involved in the translocation and assembly of membrane proteins, and have been identified in prokaryotes/mitochondria/chloroplasts. Two genes encoding YidC homologs, YidC1 and YidC2, are present in streptococcal genomes with both expressed in S. mutans. Deletion of YidC1 demonstrated no obvious phenotype. Elimination of YidC2 resulted in a stress-sensitive phenotype similar to SRP pathway mutants. Mutants lacking both YidC2 and SRP components were severely impaired and barely able to grow, even in the absence of environmental stress. Here, we report the dispensability of the cotranslational SRP protein translocation system in a bacterium. In S. mutans, this pathway contributes to protection against rapid environmental challenge and may overlap functionally with YidC2.
  Proceedings of the National Academy of Sciences 12/2005; 102(48):17466-71. · 9.68 Impact Factor
• Source

  Available from: Jens Kreth

  Article: Peptide pheromone induced cell death of Streptococcus mutans.

  Fengxia Qi, J Kreth, Celine M Lévesque, Olga Kay, Richard W Mair, Wenyuan Shi, Dennis G Cvitkovitch, Steven D Goodman
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  ABSTRACT: Streptococcus mutans is considered one of the main causative agents of human dental caries. Cell-cell communication through two-component signal transduction systems (TCSTS) plays an important role in the pathogenesis of S. mutans. One of the S. mutans TCSTS, ComDE, controls both competence development and biofilm formation. In this study, we showed that addition of exogenous competence-stimulating peptide (CSP) beyond the levels necessary for competence inhibited the growth of S. mutans in a ComDE-dependent manner. We also demonstrated that further increases of CSP stopped S. mutans cell division leading to cell death. Use of CSP as a possible therapeutic agent is discussed.
  FEMS Microbiology Letters 11/2005; 251(2):321-6. · 2.04 Impact Factor
• Source

  Available from: ncbi.nlm.nih.gov

  Article: Involvement of sortase anchoring of cell wall proteins in biofilm formation by Streptococcus mutans.

  Céline M Lévesque, Elena Voronejskaia, Yi-Chen Cathy Huang, Richard W Mair, Richard P Ellen, Dennis G Cvitkovitch
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  ABSTRACT: Streptococcus mutans is one of the best-known biofilm-forming organisms associated with humans. We investigated the role of the sortase gene (srtA) in monospecies biofilm formation and observed that inactivation of srtA caused a decrease in biofilm formation. Genes encoding three putative sortase-dependent proteins were also found to be up-regulated in biofilms versus planktonic cells and mutations in these genes resulted in reduced biofilm biomass.
  Infection and Immunity 07/2005; 73(6):3773-7. · 4.16 Impact Factor