Zinc deficiency in rats decreases thrombin-stimulated platelet aggregation by lowering protein kinase C activity secondary to impaired calcium uptake

Abstract

Aggregation of rat platelets, when stimulated by adenosine diphosphate (ADP) or fluoride, is impaired by zinc deficiency, and the defect is associated with a decreased uptake of external Ca 2+. Zinc deficiency also impairs the aggregatory response of platelets to phorbol myristate acetate (PMA), an activator of protein kinase C, but low zinc status decreases the PMA response only when calcium is added to the external medium. The purpose of this study was to determine the role of protein kinase C in rat platelet function and its relationship to the zinc deficiency pathology observed in platelets stimulated by thrombin (THR). The percent of maximal aggregation and the concentration of cytosolic-free Ca 2+ were measured in washed platelets stimulated by THR and PMA. For the protein kinase C experiments platelets were obtained from rats fed a grain-based diet, and for the thrombin experiments they were from rats fed purified diets. In the latter experiments, immature male rats were fed for 2 weeks a low zinc diet (<1 mg/kg) ad libitum or a zinc adequate (100 mg/kg) diet either ad libitum or pair-fed. Zinc deficiency impaired the aggregation of platelets stimulated by 0.045 U/mL of THR by approximately 40%, and the external calcium uptake (0.03 U/mL of THR) was decreased by approximately 30%. Staurosporine, a protein kinase C inhibitor, decreased thrombin-induced aggregation in a concentration-dependent manner, but it had no effect on the external calcium uptake. While PMA had a synergistic effect with thrombin in the stimulation of platelet aggregation, it actually decreased the cytosolic-free calcium response to thrombin. It is concluded that zinc deficiency impairs thrombin-stimulated platelet aggregation and calcium uptake and that protein kinase C activity is essential for rat platelet aggregation. Protein kinase C does not stimulate calcium uptake and must act downstream of the calcium uptake defect. A model of rat platelet activation is presented depicting impaired Ca 2+ uptake as the primary defect in zinc deficiency.