Crystal Structure of Active Site-Inhibited Human Coagulation Factor VIIa (des-Gla)

Factor VIIa (FVIIa) is a crucial haemostatic protease consisting of four distinct domains termed the Gla, epidermal growth factor-1 (EGF-1), EGF-2, and protease domains (from N- to C-terminus). The crystal structure of human FVIIa inhibited at the active site with 1,5-dansyl-Glu-Gly-Arg-chloromethyl...

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Bibliographic Details
Published in:Journal of structural biology 1999-10, Vol.127 (3), p.213-223
Main Authors: Kemball-Cook, Geoffrey, Johnson, Daniel J.D., Tuddenham, Edward G.D., Harlos, Karl
Format: Article
Language:English
Subjects:
Amino Acid Sequence
Animals
Binding Sites
Cell Line
Crystallography, X-Ray
Dansyl Compounds
Epidermal Growth Factor - chemistry
Factor VIIa - chemistry
Factor VIIa - metabolism
Humans
Mammals
Models, Molecular
Molecular Sequence Data
Protein Structure, Secondary
Recombinant Proteins - chemistry
Thromboplastin - chemistry
Thromboplastin - metabolism
Transfection
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Summary:Factor VIIa (FVIIa) is a crucial haemostatic protease consisting of four distinct domains termed the Gla, epidermal growth factor-1 (EGF-1), EGF-2, and protease domains (from N- to C-terminus). The crystal structure of human FVIIa inhibited at the active site with 1,5-dansyl-Glu-Gly-Arg-chloromethyl ketone and lacking the Gla domain has been solved to a resolution of 2.28 Å. The EGF-2 and protease domains were well resolved, whereas no electron density for the EGF-1 domain was observed, suggesting a flexible arrangement or disorder within the crystal. Superposition of the protease domain of the present structure with that previously resolved in the tissue factor (TF)/FVIIai complex revealed that although overall the domain structures are similar, the EGF-2 domain is rotated by 7.5° relative to the protease domain on binding TF. A single cleavage in the protease domain was found, between Arg315 and Lys316 (chymotrypsin numbering 170C–170D) in a FVII-specific insertion loop: this cleavage appeared to be essential for crystallisation. Insertion of the heavy chain N-terminal Ile153 is essentially identical in the two structures, as is the geometry of the active site residues and the inhibitor C-terminal arginine residue. Some differences are seen in the cleaved loop, but changes in TF-contact residues are generally minor. This structure supports the hypothesis that TF binding enables spatial domain arrangements in the flexible FVIIa molecule necessary for procoagulant function and furthermore that active site occupancy induces FVIIa active conformation via N-terminal insertion.
ISSN:1047-8477
1095-8657
DOI:10.1006/jsbi.1999.4158