Kinetics of thrombin-induced release and activation of platelet factor V

Abstract

The kinetics of thrombin-induced platelet factor V activation were studied in suspension of washed human platelets. The effect of thrombin in stimulating the release reaction could be separated from its effect on factor V activation by use of a potent inhibitor of the release reaction, the prostacyclin analogue Zk36374. When platelets were incubated with Zk36374 prior to stimulation with thrombin, the amount of ZK36374 required to inhibit 50% factor Va formation was 15 pM. ZK36374 at a final concentration of 1 nm was found to block instantaneously and completely the release of factor Va, whereas it has no effect neither on platelet factor V activation nor on the factor Va assay. By varying the time interval between the addition of thrombin (0.5 nM) and ZK36374 to suspensions of 4.6 .times. 106 platelets/ml the rate of the factor V release was found to be 12 pM factor V/min. In the absence of ZK36374 the total amount of factor V released was 8 pM, whereas Triton X-100-treated platelets gave 13 pM factor V. It appeared that the amount of factor V that could be released was dependent on the thrombin concentration. Maximum release was obtained at 1 nM thrombin. The rate of factor V release increased in proportion to the thrombin concentration. The rate of factor V activation was found to be proportional to the thrombin concentration as well as to the amount of released factor V. When 4.6 .times. 106 platelets/ml were activated by 0.5 nM thrombin, the rates of factor V activation were found to be 0.3 pM and 1.2 pM factor Va/min at 20% and 90% completion of the release reaction. The kinetics of thrombin-induced platelet factor V activation were compared to those of plasma factor V activation in platelet-rich and platelet-free plasma. The results clearly demonstrate that platelets have no effect on the rate of factor V activation and that the kinetics of plasma factor V activation are identical to those of platelet factor V activation.