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J Biol Chem, Vol. 273, Issue 42, 27449-27458, October 16, 1998
From the Department of Clinical Chemistry, Wallenberg Laboratories,
Lund University, University Hospital MAS,
S-205 02 Malmö, Sweden
Human protein S (PS) potentiates the
anticoagulant activity of human but not bovine activated protein C
(APC), whereas bovine PS is a cofactor to APC from both species. The
structural requirements for the specificity of the APC cofactor
function of human PS are located in its thrombin-sensitive region (TSR)
and the first epidermal growth factor (EGF1)-like module. To elucidate
which residues in these two modules determine the specificity of the
APC cofactor activity, 41 human PS mutants were expressed. All mutants
were cofactors to human APC and some also to bovine APC. Residues in TSR (positions 49 and 52) and EGF1 (residues 97 and 106) together determined the specificity of the APC cofactor function, whereas substitution of individual residues did not change specificity. Bovine
PS, and mutants expressing cofactor activity to bovine APC, stimulated
phospholipid binding of bovine APC. In contrast, human PS and mutants
lacking cofactor activity to bovine APC failed to support binding of
bovine APC to phospholipids. These data indicate that residues in TSR
and EGF1 cause the specificity of the APC cofactor activity and support
the concept that key residues in these two modules interact with APC on
the phospholipid surface.
Amino Acid Residues in Thrombin-sensitive Region and First
Epidermal Growth Factor Domain of Vitamin K-dependent
Protein S Determining Specificity of the Activated Protein C
Cofactor Function
Copyright © 1998 by The American Society for Biochemistry and Molecular Biology, Inc.
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