Alanine scanning mutagenesis of tissue factor, the initiating receptor and cofactor molecule for the coagulation pathways, was used to define residue side chains with functional contributions. Approximately half of the residues were exchanged, and several stretches of functional residues throughout the entire extracellular domain were identified which contributed to overall coagulant function. Mutants were further characterized with respect to their affinity for binding of ligand, providing evidence that identified functional sequence spans are involved in ligand interaction. The tissue factor extracellular domain is suggested to adopt the folding pattern of the cytokine receptor homology unit, which is typically composed of two seven-beta-strand modules. Evaluation of the mutational analysis within this structural context suggests that functionally important residues are spatially proximate and clustered at the boundary of the predicted beta-strand modules. Residues contributing to ligand binding by tissue factor were identified in positions corresponding to ligand interactive residues in the growth hormone receptor and contact residues of other cytokine receptors, consistent with a conserved structural region for ligand interaction throughout the cytokine receptor family.
The binding of von Willebrand factor (vWf) to stimulated platelets in the plasma milieu was performed using a radiolabeled monoclonal antibody to vWf. Plasma proteins specifically inhibited the thrombin- and ADP/epinephrine-induced vWf binding to activated platelets but did not inhibit the ristocetin-induced vWf binding. When normal plasma was heat defibrinated, monoclonal-labeled vWf was bound to platelets following thrombin or ADP/epinephrine stimulation. Furthermore, monoclonal-labeled vWf from afibrinogenemic plasma bound normally to platelets. The binding of vWf to stimulated platelets in either heat-defibrinated normal plasma or afibrinogenemic plasma was specifically inhibited by the addition of normal plasma fibrinogen in a concentration-dependent manner. At levels of fibrinogen less than 1 mg/ml, however, vWf binding could be demonstrated. The inhibition by fibrinogen of vWf binding to platelets was competitive and overcome by increased concentrations of vWf. These studies show that thrombin-induced and ADP/epinephrine-induced vWf binding to platelets does not occur in the plasma milieu, although at reduced levels of fibrinogen, vWf binding to stimulated platelets can be demonstrated.
Tissue factor is the cellular receptor and macromolecular enzymatic cofactor for the serine protease coagulation factor VIIa. The ligand binding extracellular domain of tissue factor consists of two structural modules which fold similar to fibronectin type III modules, consistent with the classification of tissue factor as a member of the class 2 cytokine receptor family. On the basis of the three-dimensional structure, we here analyze the importance of tissue factor residues for binding of ligand by scanning alanine mutagenesis. The identified significant binding contacts account for as much as 80% of the calculated total free energy of ligand binding. Most residues with energetic contributions to ligand binding are well exposed to solvent, and the area for ligand interaction extends from the cleft formed by the two structural modules (residues Lys20, Ile22, Lys48, Asp58, Arg135, Phe140) to the convex-shaped edge of the three- and four-stranded sheets characterized by a patch of surface-exposed hydrophobic side chains in the amino-terminal module (residues Gln37, Asp44, Trp45, Phe76, Tyr78). The binding residues are dispersed over an extended surface area, indicating adaptation to the recognition of specific structural modules of the macromolecular ligand factor VIIa. This analysis provides detailed insight into the three-dimensional organization of the ligand docking structure of the initiating cofactor for the coagulation pathways.
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