Abstract
The present study began with mathematical modeling of how inhibitors of both factor Xa (fXa) and thrombin affect extrinsic pathway-triggered blood coagulation. Numerical simulation demonstrated a stronger inhibition of thrombin generation by a thrombin inhibitor than a fXa inhibitor, but both prolonged clot time to a similar extent when they were given an equal dissociation constant (30 nm) for interaction with their respective target enzymes. These differences were then tested by comparison with the real inhibitors DX-9065a and argatroban, specific competitive inhibitors of fXa and thrombin, respectively, with similar K(i) values. Comparisons were made in extrinsically triggered human citrated plasma, for which endogenous thrombin potential and clot formation were simultaneously measured with a Wallac multilabel counter equipped with both fluorometric and photometric detectors and a fluorogenic reporter substrate. The results demonstrated stronger inhibition of endogenous thrombin potential by argatroban than by DX-9065a, especially when coagulation was initiated at higher tissue factor concentrations, while argatroban appeared to be slightly less potent in its ability to prolong clot time. This study demonstrates differential inhibition of thrombin generation by fXa and thrombin inhibitors and has implications for the pharmacological regulation of blood coagulation by the anticoagulant protease inhibitors.
Highlights
The present study began with mathematical modeling of how inhibitors of both factor Xa and thrombin affect extrinsic pathway-triggered blood coagulation
The Mathematical Model—The enzyme reactions used in the current model are similar to those described earlier for the mathematical modeling of extrinsically triggered blood coagulation [7, 8], except that antithrombin-III and fibrinogen/fibrin are incorporated into the model, but the involvement of meizothrombin described in the previous literatures [7, 8] is not considered in the current study
As indicated in these tables, the parameter values used in the current study are largely derived from the previous literature [8], which describes a mathematical model of an extrinsic pathway-triggered blood coagulation
Summary
The present study began with mathematical modeling of how inhibitors of both factor Xa (fXa) and thrombin affect extrinsic pathway-triggered blood coagulation. Numerical simulation demonstrated a stronger inhibition of thrombin generation by a thrombin inhibitor than a fXa inhibitor, but both prolonged clot time to a similar extent when they were given an equal dissociation constant (30 nM) for interaction with their respective target enzymes. These differences were tested by comparison with the real inhibitors DX-9065a and argatroban, specific competitive inhibitors of fXa and thrombin, respectively, with similar Ki values. The two types of inhibitor prolong clot time to a similar extent when coagulation is triggered with an extrinsic pathway stimulus of the same intensity
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
