Razia Rawala-Sheikh scite author profile

Thrombin-activated human platelets, in the presence of factors VIIIa and X, have specific, high-affinity (Kd approximately 0.5 nM), saturable binding sites for factor IXa that are involved in factor X activation [Ahmad, S.S., Rawala-Sheikh, R., & Walsh, P.N. (1989) J. Biol. Chem. 264, 3244-3251]. To determine the functional consequences of factor IXa binding to platelets, a detailed kinetic analysis of the effects of platelets, phospholipids, and factor VIII on factor IXa catalyzed factor X activation was done. In the absence of platelets, phospholipids, or factor VIII, the Michaelis constant (Km = 81 microM) was greater than 500-fold higher than the factor X concentration in human plasma. Unactivated platelets and thrombin-activated factor VIII, alone or in combination, had no effect on the kinetic parameters, whereas thrombin-activated platelets caused a major decrease in Km (0.39 microM) with no significant effect on kcat (0.052 min-1) and allowed factor VIIIa to decrease the Km further to a concentration (0.16 microM) near that of factor X in plasma and to increase the kcat 24,000-fold to 1240 min-1. Sonicated mixed phosphatidylserine/phosphatidylcholine vesicles (25/75, mol/mol) had kinetic effects similar to those of activated platelets. When factor IXa binding to thrombin-activated platelets and rates of factor X activation were measured simultaneously at saturating concentrations of factor X and factor VIIIa, the kcat was independent of factor IXa concentration, and the mean kcat value was 2391 min-1. The increase in catalytic efficiency (kcat/Km) in the presence of thrombin-activated platelets and factor VIIIa was (17.4 x 10(6))-fold.

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Comparative interactions of factor IX and factor IXa with human platelets

Ahmad

Rawala-Sheikh

Walsh

1989

Journal of Biological Chemistry

109

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High-Affinity, Specific Factor IXa Binding to Platelets Is Mediated in Part by Residues 3-11

Ahmad

Rawala-Sheikh²,

Cheung³

et al. 1994

Biochemistry

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To identify the amino acids in the Gla domain that mediate factor IXa binding to human platelets, we have used chimeric molecules and point mutations in the Gla domain of recombinant factor IX, based on molecular modeling using the coordinates of the Gla domain of bovine prothrombin, which reveals two surface structures whose sequences differ among factor IX, factor X, and factor VII. Binding to thrombin-activated platelets of factor IXa in the presence of factor VIIIa (2 units/mL) and factor X (1.5 microM) revealed a stoichiometry of approximately 550 sites per platelet with a Kd of approximately 0.65 nM compared with a Kd of approximately 2.5 nM in the absence of factor VIIIa and factor X. In contrast, mutations of factor IX to factor X residues at positions 4 and 5 or at positions 9, 10, and 11 results in decreases in the number of sites and affinity of factor IXa binding in the presence or absence of factor VIIIa and factor X. A chimera consisting of the Gla domain of factor VII with factor IX residues at positions 33, 34, 35, 39, and 40 displayed abnormal factor IXa binding and a decreased Vmax and a normal Km for factor X activation, and the replacement of amino acid residues 3-10 with those of factor IX restored normal binding and factor X activation kinetics to this chimeric protein.(ABSTRACT TRUNCATED AT 250 WORDS)

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Platelet Receptor Occupancy with Factor IXa Promotes Factor X Activation

Ahmad

Rawala-Sheikh

Walsh

1989

Journal of Biological Chemistry

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Rapid purification of factor IX, factor X and prothrombin by immunoaffinity and ion exchange chromatography

Ahmad

Rawala-Sheikh

Thompson

et al. 1989

Thrombosis Research

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