Abstract
In an effort to characterize serotonergic receptor activation in rat stomach fundus, the potential role of protein kinases, more specifically protein kinase C (PKC), in serotonin-induced contraction of rat stomach fundus was examined. Staurosporine, a potent, but nonselective, inhibitor of protein kinases, attenuated basal, membrane-bound PKC activity in rat stomach fundus (IC50 = 10 nM). Although staurosporine (3-100 nM) produced a concentration-dependent inhibition of contractions elicited by serotonin (which does not increase phosphatidylinositol hydrolysis in the fundus), carbamylcholine (an agent stimulating phosphatidylinositol hydrolysis), and phorbol 12,13-dibutyrate (PDBu; a phosphatidylinositol-independent activator of PKC translocation), it was a more potent inhibitor of contractions produced by serotonin and PDBu than by carbamylcholine. Potassium chloride-induced contractions were attenuated minimally by staurosporine. These results raised the possibility that serotonin might exert an effect on protein kinase activity by a phosphatidylinositol-independent mechanism. Focusing on PKC, serotonin's ability to translocate PKC from cytosol to membrane in rat fundus was examined. Concentrations of serotonin (0.1-10 microM) which maximally contracted rat fundus did not translocate PKC. However, PDBu (10 nM-1 microM) and carbamylcholine (0.1-10 microM) significantly increased membrane-bound PKC activity. These results: 1) demonstrate that translocation of PKC occurred in rat stomach fundus in response to some, but not all, contractile agonists; 2) are consistent with the possibility that contraction of rat stomach fundus by carbamylcholine and PDBu may be related to increased membrane-bound PKC activity; and 3) indicate that serotonin-induced contraction, although potently blocked by staurosporine, did not result from PKC translocation in the rat stomach fundus.
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