The important role of cGMP and cGMP-dependent protein kinase (cGPK) for the inhibition of platelet activation and aggregation is well established and due to the inhibition of fundamental platelet responses such as agonist-stimulated calcium increase, exposure of adhesion receptors and actin polymerization. The diversity of cGMP binding proteins and their synergistic interaction with cAMP signaling in inhibiting platelets indicates that a variety of cGMP targets contribute to its antiplatelet action. Since stimulation of G(i)-proteins was recently shown to be essential for complete platelet activation/aggregation, the possibility that G(i)-signaling events are cGMP/cGPK targets was investigated. Thus, the effect of elevated cGMP levels and selective cGPK activation on purinergic and adrenergic receptor-evoked decrease of platelet cAMP content was closely examined. Experiments with a selective activator of cGPK demonstrate for the first time a cGMP-caused G(i)-protein inhibition and our data suggest that this effect is mediated by cGPK. Considering the essential role of G(i)-signaling for platelet activation, we propose that inhibition of G(i)-mediated signaling by cGMP/cGPK is an important mechanism of action underlying the platelet inhibition by cGMP-elevating endothelium derived factors and drugs.
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