The intent of this proposal is to continue structure-function studies of the human factor VIII/von Willebrand (FVIII/vWF) glycoprotein complex. The following will be done: 1) The FVIII procoagulant protein will be purified and identified by inhibition of its activity by a human antibody, by acceleration of the activation of factor X by factor IXa, by the effect of thrombin and protein C on its activity, and by electrophoretic-immunoblotting with a human antibody. 2) The FVIII protein will be characterized biochemically, i.e., molecular weight by sedimentation equilibrium, subunit structure, amino acid composition, amino terminal analyses, and cyanogen bromide and proteolytic enzyme cleavage patterns. Our preliminary data show that activated FVIII has a molecular weight of 160,000 and is composed of several proteolytically degraded subunits above 50,000 daltons and one major, constant subunit of 52,000 daltons. 3) Proteolytic cleavage of FVIII by thrombin or protein C will be examined with time by high performance liquid chromatography (HPLC) as well as two-dimensional slab-gel electrophoresis and correlated with FVIII procoagulant activity. 4) Purified FVIII protein will be used for production of monoclonal antibodies for use in purifying FVIII from whole plasma and FVIII/vWF concentrates. The following will be done with the vWF protein: 1) By isoelectric focusing or various ion exchange and absorptive chromatographic techniques, including HPLC, we will determine if the 200,000 dalton dissulfide-linked subunits in vWF multimers are indeed identical. 2) The effect of removing sialic acid and then galactose on the electron microscopic appearance of vWF will be examined. 3) The vWF multimers will be chemically and proteolytically cleaved and separated to obtain fragments for electron microscopic, biochemical and functional analyses. 4) Cytoplasmic vWF will be quantitated in endothelial cells, its ability to support platelet interactions with or without ristocetin determined, and its size and subunit structure defined. 5) The effect of blocking N-linked oligosaccharide attachment to vWF by tunicamycin on cytoplasmic levels of vWF, its secretion, and its interaction with platelets will be examined. These studies should help define the role of these two closely associated, yet functionally different, clotting activities in normal blood coagulation, abnormal states of hemostasis, and thrombotic disorders.

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Project (R01)
Project #
5R01HL015615-13
Application #
3334991
Study Section
Hematology Subcommittee 2 (HEM)
Project Start
1978-03-01
Project End
1985-09-30
Budget Start
1985-04-01
Budget End
1985-09-30
Support Year
13
Fiscal Year
1985
Total Cost
Indirect Cost
Name
Duke University
Department
Type
Schools of Medicine
DUNS #
071723621
City
Durham
State
NC
Country
United States
Zip Code
27705
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Hattori, R; Hamilton, K K; McEver, R P et al. (1989) Complement proteins C5b-9 induce secretion of high molecular weight multimers of endothelial von Willebrand factor and translocation of granule membrane protein GMP-140 to the cell surface. J Biol Chem 264:9053-60
Voss, B L; Hamilton, K K; Samara, E N et al. (1988) Cyclosporine suppression of endothelial prostacyclin generation. A possible mechanism for nephrotoxicity. Transplantation 45:793-6
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Fretto, L J; Fowler, W E; McCaslin, D R et al. (1986) Substructure of human von Willebrand factor. Proteolysis by V8 and characterization of two functional domains. J Biol Chem 261:15679-89
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Fowler, W E; Fretto, L J; Hamilton, K K et al. (1985) Substructure of human von Willebrand factor. J Clin Invest 76:1491-500
Straight, D L; Hassett, M A; McKee, P A (1985) Structural and functional characterization of the inhibition of urokinase by alpha 2-macroglobulin. Biochemistry 24:3902-7