Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.21.6 (thromboplastin)
 13,278 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Coagulation factor X is activated by the extrinsic Xase complex composed of factor VIIa associated with the integral membrane protein tissue factor. The kinetics of human factor X activation was studied following reconstitution of this reaction system using purified human proteins and synthetic phospholipid vesicles composed of phosphatidylcholine and phosphatidylserine (PCPS) or phosphatidylcholine alone (PC). Factor X activation was evaluated by discontinuous measurements of the amidolytic activity of the product, factor Xa, or continuously monitored using the fluorescent serine protease inhibitor 4-aminobenzamidine. The results of both techniques were verified by direct physical measurements of zymogen activation using SDS-polyacrylamide gel electrophoresis. The rate of factor X activation with PC vesicles was less than 5% of that observed with PCPS vesicles. Since factor X does not bind to vesicles containing only PC, these data suggested an important role for the substrate-membrane interaction in the catalytic cycle. The importance of the substrate-membrane interaction in the activation process was investigated by using membrane-binding proteins to compete with the substrate for combining sites on PCPS vesicles. Prothrombin fragment 1 was an inhibitor of factor X activation. The dependence of inhibition by fragment 1 on PCPS and factor X was consistent with a significant reduction in initial velocity due to the displacement of factor X from the membrane surface. The inhibition data also suggested that the membrane-bound pool of factor X was the preferred substrate for the human extrinsic Xase complex. The influence of PCPS concentrations on the rate of factor X activation was systematically investigated. Increasing concentrations of PCPS resulted in a modest change in the Km,app and a dramatic change in the Vmax,app for the reaction. The initial velocity data could be globally analyzed according to the preferential utilization of membrane-bound factor X with the intrinsic kinetic constants: Km approximately equal to 1 microM and kcat = 37 s-1 at saturating PCPS. In addition, the equilibrium parameters for the factor X-membrane interaction inferred from these studies were in excellent agreement with the directly determined values. Collectively, the data suggest that the substrate-membrane interaction must precede catalysis for the efficient activation of human factor X by the extrinsic Xase complex.
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PMID:Role of the membrane surface in the activation of human coagulation factor X. 146 22

Coagulation factor X, when activated to factor Xa by proteolytic cleavage, itself becomes an active serine protease which participates as a component of the macromolecular prothrombinase complex along with factor Va, phospholipid, and calcium ions. To identify specific structural regions on factor Xa responsible for mediating its function in activating prothrombin, we used 21 synthetic peptides corresponding to 65% of the primary structure of factor X as potential inhibitors of prothrombin activation. Using purified components, thrombin formation was inhibited by seven peptides in a dose-dependent noncompetitive manner. Antibodies to selected inhibitory peptides affinity purified on a factor Xa-agarose column inhibited thrombin formation in a dose-dependent manner, indicating that the corresponding regions on factor Xa are surface-exposed. Kinetic analyses varying the order of reagent addition suggested that peptides 211-222, 254-269, and 263-274 were highly effective in preventing the factor Xa-factor Va interaction. Peptides 275-287 and 415-425 were considered to derive from a distal region involved in substrate binding, based upon mixed inhibition kinetic analyses and assuming that inhibitory peptides not inhibitory in factor Va binding are related to a specific region of substrate interaction. Cross-linking studies confirmed that peptides 263-274 and 263-276 could bind specifically to the light chain of factor V/Va. These findings provide the basis for further pursuing the precise definition of interactive sites on factor Xa using site-directed mutagenesis and molecular modeling.
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PMID:Molecular recognition sites on factor Xa which participate in the prothrombinase complex. 160 96