Calpain-induced down-regulation of protein kinase C inhibits dense-granule secretion in human platelets. Inhibition of platelet aggregation or calpain activity preserves protein kinase C and restores full secretion

The relationship between platelet aggregation, calpain activation, PKC activities and the secretory response have been examined in PMA-and ionomycin-stimulated platelets. Co-addition of PMA and ionomycin resulted in a maximal synergistic secretion of [14C]5-hydroxytryptamine ([14C]5-HT) from platelet dense granules. However, prior addition of PMA for 5 or 10 min resulted in a reduction of this secretory response. Inclusion of either RGDS (to inhibit platelet aggregation) or E64-d (to inhibit calpain activity) resulted in full restoration of the secretory response. In experiments to determine the activity status of PKC, PMA was found to induce a loss in cytosolic and total PKC activity without an increase in membrane-associated activities during this time period. Inhibition of either platelet aggregation or calpain activity resulted in preservation of total and cytosolic activities with a measurable increase in membrane translocated activity. PMA-induced phosphorylation of a number of PKC substrates was measured in 32P-labelled platelets. PMA induced potent phosphorylation of the 45 and 20 kDa species and also proteins of the molecular masses 66, 80, 97 and 119 kDa. Phosphorylation was maximal at either 1 or 2 min after which dephosphorylation occurred. Inclusion of either RGDS or E64-d resulted in a reduction of the dephosphorylation rates, and sustained phosphorylation of the 66, 80, 97 and 119 kDa proteins. These studies suggest that the activity status of PKC is an important factor in the level of secretion obtained and that platelet aggregation is involved in calpain-initiated down-regulation of PKC.