Since PC required 6-fold more PhlA than lecithin for induction of 50% hemolysis (Fig. 4A), the egg yolk lecithin used in this study might have contained enough LPL for hemolysis. However, no hemolysis was induced by lecithin without PhlA treatment (Fig. 4D). Taken together, these results indicated that PhlA phospholipase activity hydrolyzed PL and produced LPL. Since LPL is known to be a surfactant [33], it may have been the final effector leading to destabilization of the RBC membrane and hemolysis.

Cytotoxicity of PhlA in the Bafilomycin A1 solubility dmso presence of phospholipid We examined buy GSK872 the cytotoxicity of PhlA using HeLa and 5637 cells. PhlA had cytotoxic activity against both HeLa and 5637 cells in the presence of lecithin (Fig. 4E). To investigate the cytolytic activity of late log phase S. marcescens culture

supernatants, S. marcescens was grown at 37°C for 6 h in LB containing PL. Up to 48-fold dilutions of the S. marcescens culture supernatant induced cell death of both HeLa and 5637 cells, while supernatant of S. marcescens ΔphlAB cultured under the same conditions had no effect on HeLa or 5637 cells, indicating that PhlA was an extracellular secretion product (data not shown). Discussion A wide range of pathogenic bacteria produce phospholipases, selleck screening library and the putative role of PLA in virulence has been studied in some of these pathogens. Outer membrane-associated PLAs (OMPLAs) were first identified in E. coli [34] and orthologs were subsequently reported in numerous gram-negative bacteria, including H. pylori (PldA) [9]. The OMPLAs have been well-characterized and are thought to enhance bacterial growth, colonization, and survival. In addition to modulation of the bacterial membrane, some OMPLAs were shown to have contact-dependent hemolytic/cytolytic activities [35]. Another group of PLAs (e.g., YplA [12], ExoU [36], PlaA [10], and SlaA [37]) is secreted from bacterial cells. Purified ExoU and SlaA [38, 39] recombinant proteins do not show cytotoxic activity when added exogenously, and there is little information next on the cytotoxicity of other secretory

PLAs. To our knowledge, ShlA is the only previously reported hemolysin from S. marcescens. Although, a ΔshlAB mutant showed hemolytic activity on blood agar plates, it did not exhibit contact-dependent hemolytic activity (Fig. 1C). Therefore, we performed functional cloning, which identified PhlA as an S. marcescens candidate hemolytic factor (Fig. 2A). In the experiments reported here, we described the hemolytic and cytotoxic activities of S. marcescens PhlA. PhlA itself did not directly induce the destabilization of target cell membranes, but the LPL produced from PL by PhlA phospholipase activity showed hemolytic and cytolytic activities. Therefore, PhlA and ShlA have different hemolytic mechanisms. In addition, ShlA was expressed at lower temperature, but its expression decreased at 37°C [17].