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Effect of nicotine on streptococcus mutansHuang, Ruijie 11 1900 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / Streptococcus mutans is a key contributor to dental caries. Smokers have increased caries, but the association between tobacco, nicotine, caries and S. mutans growth is little investigated. In the first section, seven S. mutans strains were used for screening. The minimum inhibitory concentration (MIC), minimum bactericidal concentration (MBC), and minimum biofilm inhibitory concentration (MBIC) were 16 mg/ml (0.1 M), 32 mg/ml (0.2 M), and 16 mg/ml (0.1 M), respectively, for most of the S. mutans strains. Growth of planktonic S. mutans cells was significantly repressed by 2.0-8.0 mg/ml nicotine concentrations. Biofilm formation and metabolic activity of S. mutans was increased in a nicotine-dependent manner up to 16.0 mg/ml. Scanning electron microscopy (SEM) revealed higher nicotine-treated S. mutans had thicker biofilm and more spherical bacterial cells than lower concentrations of nicotine. In the second section, confocal laser scanning microscopy (CLSM) results demonstrated that both biofilm bacterial cell numbers and extracellular polysaccharide (EPS) synthesis were increased by nicotine. Glucosyltransferase (Gtf) and glucan binding protein A (GbpA) protein expression of S. mutans planktonic cells were upregulated, while GbpB protein expression of biofilm cells were downregulated by nicotine. The mRNA expression of those genes were mostly consistent with their protein results. Nicotine was not directly involved in S. mutans LDH activity. However, since it increased the total number of bacterial cells in biofilm; total LDH activity of S. mutans biofilm was increased. In the third section, a PCR-based multiple species cell counting (PCR-MSCC) method was designed to investigate the effect of nicotine on S. mutans in a ten mixed species culture. The absolute S. mutans number in mixed biofilm culture was increased but the percentage of S. mutans in the total number of bacterial cells was not changed.
In conclusion, nicotine enhanced biofilm formation and biofilm metabolism of S. mutans, through stimulating S. mutans planktonic cell Gtfs and Gbps expression. This leads to more planktonic cells attaching to dental biofilm. Increased S. mutans cell numbers, in biofilms of single species or ten mixed species, resulted in higher overall LDH activity. More lactic acid may be generated and contribute to caries development in smokers.
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