The effect of Arg306 → Ala and Arg506 → Gln substitutions in the inactivation of recombinant human factor Va by activated protein C and protein S

Abstract

Factor Va (fVa) is inactivated by activated protein C (APC) by cleavage of the heavy chain at Arg³⁰⁶, Arg⁵⁰⁶, and Arg⁶⁷⁹. Site-directed mutagenesis of human factor V cDNA was used to substitute Arg³⁰⁶ → Ala (rfVa^306A) and Arg⁵⁰⁶ → Gln (rfVa^506Q). Both the single and double mutants (rfVa^306A/506Q) were constructed. The activation of these procofactors by α-thrombin and their inactivation by APC were assessed in coagulation assays using factor V-deficient plasma. All recombinant and wild-type proteins had similar initial cofactor activity and identical activation products (a factor Va molecule composed of light and heavy chains). Inactivation of factor Va purified from human plasma (fVa^PLASMA) in HBS Ca²⁺ +0.5% BSA or in conditioned media by APC in the presence of phospholipid vesicles resulted in identical inactivation profiles and displayed identical cleavage patterns. Recombinant wild-type factor Va (rfVa^WT) was inactivated by APC in the presence of phospholipid vesicles at an overall rate slower than fVa^PLASMA. The rfVa^306A and rfVa^506Q mutants were each inactivated at rates slower than rfVa^WT and fVa^PLASMA. Following a 90-min incubation with APC, rfVa^306A and rfva^506Q retain approximately 30-40% of the initial cofactor activity. The double mutant, rfVa^306A/506Q, was completely resistant to cleavage and inactivation by APC retaining 100% of the initial cofactor activity following a 90-min incubation in the presence of APC. Recombinant ma^WT, rfVa^306A, rfVa^506Q, and rfVa^306A/506Q were also used to evaluate the effect of protein S on the individual cleavage sites of the cofactor by APC. The initial rates of rfVa^WT and rfVa^306A inactivation in the presence of protein S were unchanged, indicating cleavage at Arg⁵⁰⁶ is not affected by protein S. The initial rate of rfVa^506Q inactivation was increased, suggesting protein S slightly accelerates the cleavage at Arg30h. Over-all, the data demonstrate high specificity with respect to cleavage sites for APC on factor Va and demonstrate that cleavages of the cofactor at both Arg³⁰⁶ and Arg⁵⁰⁶ are required for efficient factor Va inactivation.