ANALYSIS OF STRUCTURAL REQUIREMENTS FOR FACTOR VIII FUNCTION USING SITE-DIRECTED MUTAGENESIS

 

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Factor VIII (fVIII) functions in the intrinsic pathway of coagulation as the cofactor for Factor IXa proteolytic activation of Factor X. fVIII contains multiple sites which are susceptible to cleavage by thrombin, Factor Xa, and activate) protein C. Proteolytic cleavage is required for cofactor activity and may be responsible for inactivation of cofactor activity. In order to identify the role ofthe individual cleavages of fVIII in its activation and inactivation, site-directed DNA mediated mutagenesis of fVIII was performed and the altered forms of fVIII produced and characterized. Conversionof Arg residues to lie residues at amino acid positions 740, 1648, and 1721 resulted in resistance to thrombin cleavage at those siteswith no alteration of in vitro procoagulant activity. Modification of the thrombin cleavage sites at either positions 372 or 1689 resulted in loss of cofactor activity suggesting that these sites are important for activation. Modification of the postulated activated protein C cleavage site at position 336 resulted in fVIII with a higher specific activity than wild type, possibly due to resistance toproteolytic inactivation.

DNA mediated mutagenesis was also used to study the role of post-translational biosynthetic modifications of fVIII. Structural characterization of recombinant fVIII suggested the presence of sulfated tyrosine residues within two acidic regions located between amino acid residues 336-372 and 1648-1689. Individual modification of theseTyr residues to Phe had negligible effect on synthesis and in vitrocofactor activity. The effect of combinations of these mutations onsecretion, cofactor activity, and vWF interaction will be presented.