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  • Title: Platelet activation with combination of ionophore A23187 and a direct protein kinase C activator induces normal secretion in patients with impaired receptor mediated secretion and abnormal signal transduction.
    Author: Yang X, Sun L, Gabbeta J, Rao AK.
    Journal: Thromb Res; 1997 Nov 01; 88(3):317-28. PubMed ID: 9526952.
    Abstract:
    Defects in signal transduction mechanisms may underlie the impaired aggregation and secretion in patients with congenital platelet function defects (CPD). Both protein kinase C (PKC) induced pleckstrin phosphorylation and cytoplasmic Ca2+ mobilization play a major role in secretion. We postulated that combined platelet activation with a cell permeable direct PKC activator 1,2-dioctanoyl-sn-glycerol (DiC8) and ionophore A23187, which possibly bypass the steps involved in the intracellular synthesis of two major mediators (inositol trisphosphate, diacylglycerol), may induce normal dense granule secretion in patients with impaired receptor mediated secretion. We studied eight CPD patients with abnormal aggregation and secretion in response to several different surface receptor-mediated agonists despite the presence of normal dense granule contents. Receptor mediated Ca2+ mobilization and/or pleckstrin phosphorylation were abnormal in seven patients. Platelet activation with a combination of ADP (8 microM) with DiC8 (200 microM) or A23187 (10 microM) improved secretion in four patients. However, platelet activation with a combination of 200 microM DiC8 with 10 microM A23187, or 100 microM DiC8 with 5 microM A23187 induced normal secretion in platelet-rich plasma in all patients. These studies suggest that in such patients with CPD the ultimate process of exocytosis or secretion per se is intact and impaired secretion results from abnormalities in early signal transduction events, possibly upstream of diacylglycerol formation and calcium mobilization. Detailed studies are needed to delineate the specific abnormalities in these heterogenous patients with signal transduction defects.
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