Platelets are an interesting model for studying the relationship betwen adhesion and mitogen-activated protein (MAP) kinase activation. We have recently shown that in platelets, ERK2 was activated by thrombin and downregulated by IIbβ3integrin engagement. Here we focused our attention on the c-Jun NH2-terminal kinases (JNKs) and their activation in conditions of platelet aggregation. We found that JNK1 was present in human platelets and was activated after thrombin induction. JNK1 phosphorylation was detected with low concentrations of thrombin (0.02 U/mL) and after 1 minute of thrombin-induced platelet aggregation. JNK1 activation was increased (fivefold) when fibrinogen binding to IIbβ3 integrin was inhibited by the Arg-Gly-Asp-Ser (RGDS) peptide or (Fab′)2 fragments of a monoclonal antibody specific for IIbβ3, demonstrating that, like ERK2, IIbβ3 integrin engagement negatively regulates JNK1 activation. Comparison of JNK1 activation by thrombin in stirred and unstirred platelets in the presence of RGDS peptide showed a positive regulation by stirring itself, independently of IIbβ3 integrin engagement, which was confirmed in a thrombasthenic patient lacking platelet IIbβ3. The same positive regulation by stirring was found for ERK2. These results suggest that MAP kinases (JNK1 and ERK2) are activated positively by thrombin and stirring. In conclusion, we found that JNK1 is present in platelets and can be activated after thrombin induction. Moreover, this is the first report showing that two different MAP kinases (ERK2 and JNK1) are regulated negatively by IIbβ3 engagement and positively by mechanical forces in platelets.
Platelets are an interesting model for studying the relationship betwen adhesion and mitogen-activated protein (MAP) kinase activation. We have recently shown that in platelets, ERK2 was activated by thrombin and downregulated by IIbβ3integrin engagement. Here we focused our attention on the c-Jun NH2-terminal kinases (JNKs) and their activation in conditions of platelet aggregation. We found that JNK1 was present in human platelets and was activated after thrombin induction. JNK1 phosphorylation was detected with low concentrations of thrombin (0.02 U/mL) and after 1 minute of thrombin-induced platelet aggregation. JNK1 activation was increased (fivefold) when fibrinogen binding to IIbβ3 integrin was inhibited by the Arg-Gly-Asp-Ser (RGDS) peptide or (Fab′)2 fragments of a monoclonal antibody specific for IIbβ3, demonstrating that, like ERK2, IIbβ3 integrin engagement negatively regulates JNK1 activation. Comparison of JNK1 activation by thrombin in stirred and unstirred platelets in the presence of RGDS peptide showed a positive regulation by stirring itself, independently of IIbβ3 integrin engagement, which was confirmed in a thrombasthenic patient lacking platelet IIbβ3. The same positive regulation by stirring was found for ERK2. These results suggest that MAP kinases (JNK1 and ERK2) are activated positively by thrombin and stirring. In conclusion, we found that JNK1 is present in platelets and can be activated after thrombin induction. Moreover, this is the first report showing that two different MAP kinases (ERK2 and JNK1) are regulated negatively by IIbβ3 engagement and positively by mechanical forces in platelets.
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