Data significantly different from control values are indicated wi

Data significantly different from control values are indicated with asterisks. To search for components of S. aureus responsible for the activation of TLR2-mediated learn more phosphorylation of JNK in macrophages, we screened a series of S. aureus strains with mutations that affect the structure of the

cell wall (Table 1). Peritoneal macrophages from thioglycollate-injected mice were incubated with either the parental strain RN4220 or its mutant strains, and whole-cell lysates were subjected to western blotting to determine the level of the phosphorylated form of JNK. Macrophages showed an increase in the level of phosphorylated JNK 10 min after incubation with RN4220, and the increase continued for the next 20 min (left panel in Fig. 1a), as we reported previously.10 Incubation with a mutant strain lacking the expression of dltA similarly brought about the activation of JNK phosphorylation, but the level was

much lower than that observed with the parental strain (left panel in Fig. 1a). This effect was not attributable to impaired phagocytosis of the mutant bacteria by macrophages because the parental and mutant strains were comparable in their susceptibility to phagocytosis (right panels in Fig. 1a). The level of phosphorylated JNK was lower in macrophages incubated with the strain T013 (Fig. 1b), in which the lgt gene coding for lipoprotein diacylglycerol transferase is disrupted.14 This mutant strain is https://www.selleckchem.com/screening/mapk-library.html devoid of lipid modification of all lipoproteins at the cell surface, and the result was consistent with previous reports that lipoproteins serve as a ligand for TLR2. Similar reductions in the level of JNK phosphorylation

were seen when macrophages were incubated with a tagO-deficient strain and (although the reductions were less significantly) with mutants for the gene SA0614 or SA0615 (Fig. 1b). The other mutant strains, including one deficient in the ltaS gene, which codes for polyglycerolphosphate synthase of lipoteichoic acid (LTA), did not differ from the parental strain in the effect on the phosphorylation of JNK in macrophages (Fig. 1b). When macrophages were incubated with the dltA mutant which had been introduced with a plasmid Avelestat (AZD9668) expressing the dltABCD operon, the level of phosphorylated JNK became almost equal to that in macrophages incubated with the parental strain (left panel in Fig. 1c). Similarly, the expression of tagO in the tagO mutant complemented a defect in the phosphorylation of JNK (right panel in Fig. 1c). These results confirmed the importance of dltA and tagO for the induction of JNK phosphorylation by S. aureusin macrophages. Unlike TLR4-acting LPS, the parent and mutant strains deficient in dltA or tagO did not seem to activate macrophages lacking expression of TLR2 in terms of the induction of JNK phosphorylation (Fig. 2a). This indicated that the S. aureus-activated phosphorylation of JNK depends on the action of TLR2.

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