Molecular and structural advances in tissue factor-dependent coagulation

The tissue factor:factor VIIA (TF-F.VIIa) complex is considered the physiological initiator of blood coagulation. Besides its role in normal hemostasis, this enzyme complex has been found to play an important role in various thrombotic disorders and thus has become an attractive target for the development of new anticoagulants. Recently, significant progress has been made in regard to structural and molecular aspects of TF-VIIa-initiated coagulation. A rather complete picture on how tissue factor binds to factor VIIa has emerged and is discussed in detail in this review. Also, the combined data of the TF-F.VIIa crystal structure, of naturally occurring F.VII variants, and of mutagenesis studies provide a framework to discuss molecular aspects of the tissue factor-mediated enhancement of F.VIIa catalytic efficiency and the recognition of macromolecular substrates. F.VIIa as a member of the serine protease family has an active site homologous to other coagulation factors. The release of the coordinates of the crystal structures of F.X and F.IX, together with the earlier determined thrombin structure, now allows a detailed comparison of these active centers with respect to the development of specific and potent active site inhibitors. This structural and molecular information about the TF-F.VIIa complex and other coagulation enzymes adds to our understanding of blood coagulation and should further the development of new classes of anticoagulants. (C) 1997, Elsevier Science Inc.