Results were obtained for four independent experiments, and stati

Results were obtained for four independent experiments, and statistics were conducted using the Student’s t-test. The initial finding that XIP induces genetic transformation via ComX was reported by Mashburn-Warren et al. (2010) using cells grown in CDM. Recent work by Desai et al. (2012) reported that the induction of comX by XIP was largely inhibited when grown in rich nutrient Todd Hewitt Broth (THB), a medium commonly used to study CSP-induced competence. In accordance with these reports, our TF assays show that XIP is optimally functional in

CDM in eliciting transformation and its activity is inhibited when cells are grown in complex medium (i.e., THYE) (Fig. 1). In contrast, we observed that CSP was largely ineffective at inducing competence in CDM

Selleckchem AZD1208 and that it was optimally functional in complex medium (Fig. 1). As CSP and XIP were shown not to function optimally in the same growth medium, we did not obtain significant combinatorial effects in either THYE or CDM (data not shown). To elucidate the role of known S. mutans competence genes in the regulation of XIP production, its processing, and/or secretion, we used HPLC-ESI-MS/MS to monitor extracellular XIP levels in comR/S, comE, and comX-deficient mutants. We were able to successfully identify the presence of XIP in the wild-type supernatant by comparison of the retention time and of the fragmentation patterns to the sXIP standard NVP-BKM120 (Fig 2a and b). We were able to detect XIP at concentrations ranging from 95 to 750 ng mL−1 (or 109–857 nM), and consistent with the loss of transformability ∆SMcomS, XIP was absent in their cell-free supernatants (Fig. 2c). These results are in accordance with that of Khan et al. (2012) who also reported their inability to detect mature XIP in culture supernatants of the ComS mutant. As expected of a positive regulator of comS expression, ∆SMcomR also displayed highly reduced levels of XIP. Our further

quantification of XIP in the ComX and ComE mutants suggested a significant decrease (P < 0.05) of this peptide in the ∆SMcomX supernatant, whereas MycoClean Mycoplasma Removal Kit it was significantly increased in the ∆SMcomE supernatant (Fig. 2c). These results suggested that while ComX positively influenced the production, processing and/or secretion of XIP, the ComDE two-component system negatively affected one or more of these processes in S. mutans. While investigating the effects of sXIP on genetic transformation, we noted that growth of UA159 was drastically impaired by the addition of 10 μM XIP in CDM (Fig. 3a). As this indicated a likely effect on cell death, we performed cell viability assays to determine whether XIP could act as a death effector of S. mutans. In the presence of 10 μM XIP in CDM, we observed only an 18% survival rate relative to the no-peptide control, suggesting that XIP can function as a potent killing peptide under these conditions (Fig. 3b).

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