Suppression of the voltage-gated K+ current of human megakaryocytes by thrombin and prostacyclin.

L Kapural, A Fein

Index: Biochim. Biophys. Acta 1355(3) , 331-42, (1997)

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Abstract

We examined the effects of platelet activators and inhibitors of platelet function on the voltage-gated delayed rectifier K+ current of human megakaryocytes. We found that both the activators such as thrombin, the thrombin receptor peptide (TRP42-47) and ADP and the inhibitors such as prostacyclin suppressed the delayed rectifier current through two different mechanisms. The cAMP dependent protein kinase (A-kinase) inhibitor IP20 blocked the suppression of the delayed rectifier current by prostacyclin and failed to block the suppression by thrombin, TRP42-47 and ADP. The effects of IP20 suggest that the action of prostacyclin is mediated by A-kinase and the action of the three activators is not mediated by A-kinase. Pertussis toxin (PTX) an inhibitor of the inhibitory GTP-binding proteins (Gi) blocked the suppression of the delayed rectifier current by thrombin, TRP42-47 and ADP and failed to block the suppression by prostacyclin. The effects of PTX suggests that the action of the three activators is mediated by Gi or some other PTX-sensitive GTP-binding protein. We speculate that thrombin and other platelet activators that activate Gi may be suppressing the delayed rectifier current via a direct interaction of Gi or a subunit of it with the delayed rectifier potassium channel itself.