Effects of trifluoperazine on platelet activation

Abstract

Previous reports of the inhibitory effects of trifluoperazine on platelet responses to different aggregating agents have been conflicting, and the mechanism of action remains unclear. We have found that aggregation by minimum concentrations of collagen and arachidonic acid, and second phase aggregation by minimum concentrations of ADP, thrombin, epinephrine and the calcium ionophore A23187 were inhibited by 40–60μM trifluoperazine. The first phase of aggregation by a minimum concentration of epinephrine was completely inhibited by 100μM trifluoperazine, and the first phase of aggregation induced by ADP, thrombin or A23187 was decreased by 300μM trifluoperazine. The platelet shape change caused by collagen, but by no other aggregating agent examined, was inhibited by 300μM trifluoperazine. Secretion of 3H-5 hydroxytryptamine by minimum concentrations of ADP, collagen, epinephrine and arachidonic acid was completely suppressed by 50μM trifluoperazine. Secretion by thrombin and A23187 was incompletely inhibited by 300μM trifluoperazine. Thromboxane B 2 formation caused by all aggregating agents, except epinephrine, was incompletely suppressed by 50μM trifluoperazine, and 300μM trifluoperazine only caused complete inhibition of thromboxane B 2 formation by ADP, collagen and epinephrine. The phorbol ester, TPA, which mimics diacylglycerol by activating protein kinase C, caused aggregation and secretion. Aggregation, but not secretion, by low concentrations of TPA was inhibited by concentrations of trifluoperazine as low as 50μM. However, aggregation by a combination of TPA and A23187 was only inhibited by concentrations of trifluoperazine in excess of 100 μM. Secretion by TPA was inhibited by concentrations of trifluoperazine in excess of 200μM. Our findings suggest that low concentrations of trifluoperazine inhibit platelet activation by inhibiting phospholipase A 2, and that higher concentrations inhibit platelet responses by interfering with protein kinase C.