Differential effects of chlorpromazine on secretion, protein phosphorylation and phosphoinositide metabolism in stimulated platelets.
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ABSTRACT: Increasing concentrations of chlorpromazine (30-500 microM) caused a progressive lysis of gel-filtered platelets, as monitored by the extracellular appearance of cytoplasmic ([14C]adenine-labelled) adenine nucleotides. The chlorpromazine-induced lysis was markedly enhanced by thrombin and phorbol ester, and complete cytolysis was found at chlorpromazine concentrations of 100 microM and above in the presence of thrombin. At non-lytic concentrations, chlorpromazine caused a dramatic increase in the thrombin- or phorbol ester-mediated incorporation of 32P into phosphatidylinositol 4-phosphate and, to a lesser extent, into phosphatidylinositol 4,5-bisphosphate in platelets pulse-labelled with [32P]Pi. Chlorpromazine alone also caused an incorporation of 32P into the phosphoinositides. Non-lytic concentrations of chlorpromazine had no effect on the phosphorylation of the 47 kDa protein (regarded as the substrate for protein kinase C), but markedly inhibited the accompanying secretion of ATP + ADP and beta-hexosaminidase when platelets were incubated with 0.17 microM-phorbol ester or 0.1-0.2 unit of thrombin/ml. At lower concentrations of thrombin, chlorpromazine did not inhibit, but slightly enhanced, secretion. A protein of 82 kDa was phosphorylated during the interaction of platelets with thrombin and phorbol ester, and this phosphorylation was enhanced by chlorpromazine (non-lytic). These results suggest that the previously reported inhibition of protein kinase C by chlorpromazine is probably non-specific and due to cytolysis. However, since non-lytic concentrations of chlorpromazine inhibit secretion, but not protein kinase C, in platelets, activation of protein kinase C is not involved in the stimulation-secretion coupling, or chlorpromazine acts at a step after kinase activation. Possible mechanisms of this inhibition by chlorpromazine are discussed in the light of its effect on phosphoinositide metabolism and protein phosphorylation.
SUBMITTER: Opstvedt A
PROVIDER: S-EPMC1147110 | biostudies-other | 1986 Aug
REPOSITORIES: biostudies-other
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