James A. Gurr scite author profile

Factor IXa binding to the activated platelet surface is required for efficient catalysis of factor X activation. Platelets possess a specific binding site for factor IXa, occupancy of which has been correlated with rates of factor X activation. However, the specific regions of the factor IXa molecule that are critical to this interaction have not yet been fully elucidated. To assess the importance of the second epidermal growth factor (EGF2) domain of factor IXa for platelet binding and catalysis, a chimeric protein (factor IXa(Xegf2)) was created by replacement of the EGF2 domain of factor IX with that of factor X. Competition binding experiments showed 2 different binding sites on activated platelets (approximately 250 each/platelet): (1) a specific factor IXa binding site requiring the intact EGF2 domain; and (2) a shared factor IX/IXa binding site mediated by residues G(4)-Q(11) within the Gla domain. In kinetic studies, the decreased V(max) of factor IXa(Xegf2) activation of factor X on the platelet surface (V(max) 2. 90 +/- 0.37 pM/min) versus normal factor IXa (37.6 +/- 0.15 pM/min) was due to its decreased affinity for the platelet surface (K(d) 64.7 +/- 3.9 nM) versus normal factor IXa (K(d) 1.21 +/- 0.07 nM), resulting in less bound enzyme (functional complex) under experimental conditions. The hypothesis that the binding defects of factor IXa(Xegf2) are the cause of the kinetic perturbations is further supported by the normal k(cat) of bound factor IXa(Xegf2) (1701 min(-)(1)) indicating (1) an intact catalytic site and (2) the normal behavior of bound factor IXa(Xegf2). The EGF2 domain is not a cofactor binding site since the mutant shows a normal rate enhancement upon the addition of cofactor. Thus, the intact EGF2 domain of factor IXa is critical for the formation of the factor X activating complex on the surface of activated platelets.

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Binding of high-molecular-mass kininogen to the Apple 1 domain of factor XI is mediated in part by Val64 and Ile77

Seaman

Baglia²,

Gurr

et al. 1994

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We have previously demonstrated the presence of a binding site for high-molecular-mass kininogen (HK), spanning residues Val59-Lys83, in the first Apple (A1) domain in the heavy-chain region of factor XI. We have now prepared conformationally constrained synthetic peptides and recombinant A1 domain (rA1) constructs to identify the specific amino acid residues that constitute the HK-binding site. Expression of the A1 domain (Glu1-Ser90) was achieved in a bacterial expression system following PCR amplification of the A1 domain from factor XI cDNA and ligation into an expression plasmid. The rA1 inhibited factor XI binding to HK [Ki approximately (2-3) x 10(-7) M] in a manner indistinguishable from purified factor XI, indicating that all the information necessary for binding HK is contained within the A1 domain. To identify specific amino acid residues involved in binding HK, conformationally constrained peptides were synthesized containing conservative amino acid substitutions at residues suspected to contain side chains involved in binding, including Val64-->Ala, Glu66-->Ala, Arg73-->Ala and Ile77-->Ala. Because normal results were obtained with all peptides with the exception of Val64-->Ala and Ile77-->Ala, which failed to compete normally with factor XI for binding to HK, we prepared two mutant rA1 domains (Val64-->Ala and Ile77-->Ala) by PCR-based site-directed mutagenesis, both of which exhibited diminished capacity to inhibit factor XI binding to HK. Competition studies with prekallikrein (PK) and a PK-dependent synthetic peptide suggested that PK and factor XI have a common surface in the A1 domain for binding HK of which Val64 is a part. We conclude that the binding of factor XI to HK is mediated at least in part by Val64 and Ile77 in the A1 domain of factor XI.

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The rat TSHβ gene contains distinct response elements for regulation by retinoids and thyroid hormone

Breen

Hickok

Gurr

1997

Molecular and Cellular Endocrinology

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The Regulation and Organization of Thyroid Stimulating Hormone Genes

Kourides

Gurr

Wolf

1984

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James A. Gurr

The Second Epidermal Growth Factor-like Domain of Human Factor IXa Mediates Factor IXa Binding to Platelets and Assembly of the Factor X Activating Complex

Binding of high-molecular-mass kininogen to the Apple 1 domain of factor XI is mediated in part by Val64 and Ile77

The rat TSHβ gene contains distinct response elements for regulation by retinoids and thyroid hormone

The Regulation and Organization of Thyroid Stimulating Hormone Genes

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