Stress-responsive proteins are upregulated in Streptococcus mutans during acid tolerance

doi:10.1099/mic.0.27008-0

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Stress-responsive proteins are upregulated in Streptococcus mutans during acid tolerance

Alice C. L. Len, Derek W. S. Harty and Nicholas A. Jacques

Institute of Dental Research, Westmead Millennium Institute and Westmead Centre for Oral Health, PO BOX 533, Wentworthville, NSW 2145, Australia

Correspondence
Nicholas A. Jacques
njacques{at}dental.wsahs.nsw.gov.au

Streptococcus mutans is an important pathogen in the initiationof dental caries as the bacterium remains metabolically activewhen the environment becomes acidic. The mechanisms underlyingthis ability to survive and proliferate at low pH remain anarea of intense investigation. Differential two-dimensionalelectrophoretic proteome analysis of S. mutans grown at steadystate in continuous culture at pH 7·0 or pH 5·0enabled the resolution of 199 cellular and extracellular proteinspots with altered levels of expression. Matrix-assisted laserdesorption ionization time-of-flight mass spectrometry identified167 of these protein spots. Sixty-one were associated with stress-responsivepathways involved in DNA replication, transcription, translation,protein folding and proteolysis. The 61 protein spots representedisoforms or cleavage products of 30 different proteins, of which25 were either upregulated or uniquely expressed during acid-tolerantgrowth at pH 5·0. Among the unique and upregulatedproteins were five that have not been previously identifiedas being associated with acid tolerance in S. mutans and/orwhich have not been studied in any detail in oral streptococci.These were the single-stranded DNA-binding protein, Ssb, thetranscription elongation factor, GreA, the RNA exonuclease,polyribonucleotide nucleotidyltransferase (PnpA), and two proteinases,the ATP-binding subunit, ClpL, of the Clp family of proteinasesand a proteinase encoded by the pep gene family with propertiessimilar to the dipeptidase, PepD, of Lactobacillus helveticus.The identification of these and other differentially expressedproteins associated with an acid-tolerant-growth phenotype providesnew information on targets for mutagenic studies that will allowthe future assessment of their physiological significance inthe survival and proliferation of S. mutans in low pH environments.

Abbreviations: 2-DGE, two-dimensional gel electrophoresis; ASB-14, amidosulfobetaine-14; D, dilution rate; DE, differential expression (values); IPG, immobilized pH gradient; MALDI-TOF, matrix-assisted laser desorption ionization time-of-flight; PMM, peptide mass mapping

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