Modulation of Ca2+ fluxes in isolated platelet vesicles: effects of cAMP-dependent protein kinase and protein kinase inhibitor on Ca2+ sequestration and release |
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Authors: | J M Hettasch G C Le Breton |
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Affiliation: | Department of Pharmacology, University of Illinois College of Medicine, Chicago. |
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Abstract: | In the present study, we investigated the role of cAMP-dependent protein kinase in the process of Ca2+ uptake and release from platelet-derived membrane vesicles enriched in the dense tubular system. It was found that these membrane vesicles contain endogenous cAMP-dependent protein kinase and that stimulation of protein kinase by cAMP resulted in the phosphorylation of a single protein band (22 kDa). Addition of cAMP-dependent protein kinase produced effects on vesicle Ca2+ accumulation which were dependent on the Ca2+ concentration in the incubation medium. Specifically, at low extravesicular Ca2+ concentrations, cAMP-dependent protein kinase (10-100 micrograms/ml) produced a dose-dependent stimulation of Ca2+ uptake, however, a similar stimulation was not observed at high extravesicular Ca2+ concentrations. When endogenous protein kinase was blocked by the addition of protein kinase inhibitor, (2-160 nM) there was a dose-dependent inhibition of Ca2+ uptake at both low and high concentrations of extravesicular Ca2+. Furthermore, the addition of protein kinase inhibitor at steady state caused a rapid and dose-dependent release of vesicle-accumulated Ca2+. Studies on the phosphorylation profile of vesicle protein indicated that protein kinase inhibitor (80 and 160 nM) was capable of inhibiting the phosphorylation of the 22-kDa protein within 15 s. Finally, the ability of thromboxane A2 to cause Ca2+ release was inhibited by the addition of cAMP-dependent protein kinase (1 mg/ml). These findings suggest that cAMP-dependent protein kinase is not only a major determinant in the accumulation of Ca2+ by the dense tubular system, but may play an important role in the process of intraplatelet Ca2+ release by physiologic agents such as thromboxane A2. |
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