As shown here, stimulation with CXCL4 induces an increased SphK1

As shown here, stimulation with CXCL4 induces an increased SphK1 expression in monocytes and rescues these cells from apoptosis. It should be mentioned here that transfection of monocytes either selleck inhibitor with empty vector or with SphK1-plasmid resulted in decreased apoptosis but at the same time led to increased necrotic cell death, while overexpression of SphK1 (by transfection) did not further support cell survival (Fig. 6E). This indicates that cell survival in monocytes (non-proliferating cells) requires

at least one additional signal provided by CXCL4 apart from those leading to increased expression of SphK1. Furthermore, this result also might explain why stimulation with exogenous S1P only partially protects monocytes from cell death (Fig. 6A and 7B). In addition to the effects of SphK1 overexpression, Olivera et al. 28, 29 demonstrated that administration of micromolar (but not nanomolar) concentrations of exogenous S1P suppresses apoptosis in a dose-dependent manner, and these effects were independent

of S1P receptors. Similar results were published by Van Brocklyn et al. 24, who could demonstrate that S1P at high concentrations acts not necessarily through binding to S1P receptors, but rather following cellular uptake of the phospho-lipid. Mononuclear phagocytes mainly express two S1P receptors, S1P1 and S1P2 12. While S1P1 exclusively interacts with Gi proteins, S1P2 couples with multiple G proteins 30. In a previous report, we have shown that CXCL4-mediated oxidative burst is only marginally reduced in the presence Dasatinib datasheet of PTX, indicating that Gi proteins do not play a relevant role Casein kinase 1 in this context 2. Furthermore, CXCL4-mediated rescue from apoptosis is not affected in PTX-pretreated cells (Fig. 7B). Although we

cannot fully exclude a minor role of S1P receptors coupled to PTX-insensitive G proteins, the lack of S1P in culture supernatants of CXCL4-stimulated cells argue against the involvement of any S1P surface-expressed receptors. We, thus, conclude that CXCL4 effects are transduced predominantly by intracellularly generated S1P. Monocytes or macrophages undergo spontaneous apoptosis in the absence of serum and/or survival factors. In these cells apoptosis is accompanied by an increase of caspase-9 and caspase-3 activity 31–34. As shown here, stimulation with CXCL4 not only rescues monocytes from apoptosis but also resulted in a nearly complete block of caspase activation (Fig. 4 and 6C). In addition, also treatment with high dosages of S1P resulted in reduction of caspase activity, and cell death. The protective effect of CXCL4 on apoptosis and caspase activation is partially reversed in the presence of SphK or MEK/Erk inhibitors (Fig. 3B and 4, or published earlier by our group 3), indicating that caspase activity is regulated by these kinases in monocytes. Our results support previous findings by Edsall et al.

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