Abstract
Prothrombinase is the surface-bound complex in which factor Xa (Xa) converts prothrombin to thrombin in vivo. Studies have shown that Xa within prothrombinase is resistant to inhibition by antithrombin + heparin (AT+H). Previously we found that, unlike AT+H, a covalent conjugate of AT and H (ATH) was able to neutralize fibrin-bound thrombin. In this study, AT+H and ATH were compared in their reaction with Xa in prothrombinase. Mixtures of CaCl2, PCPS vesicles, factor Va (Va) and prothrombin in TSP buffer were combined with either AT+H or ATH. Following addition of Xa, time samples were neutralized with Na2EDTA + polybrene + substrate (S-2222) and residual Xa activity measured. Second order rate constants (k2) were calculated from plots of activity versus time. Results were compared to those in corresponding experiments with Xa alone. Inhibition of Xa in prothrombinase by AT+H had a k2 (x 108 M−1min−1) of 0.688 +/− 0.030. Conversely, free Xa neutralization by AT+H was significantly more rapid (k2 = 1.53 +/− 0.35, p = 0.041). ATH reaction with prothrombinase Xa proceeded at a rate that was insignificantly different from that with Xa alone (2.36 +/− 0.31 and 2.83 +/− 0.83, respectively) and similar to AT+H reaction with free Xa. Varying concentrations of prothrombinase components showed similar effects. We conclude that covalently linked complexes of AT + H undergo unhindered reaction with Xa in prothrombinase, while non-covalently linked AT+H encounters resistance. It is possible that ATH may effectively prevent plasma thrombin generation by neutralization of Xa in prothrombinase and thus may prohibit feedback activation of coagulation.
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