Egan J O, Kalafatis M, Mann K G
Department of Biochemistry, College of Medicine, University of Vermont, Burlington 05405, USA.
Protein Sci. 1997 Sep;6(9):2016-27. doi: 10.1002/pro.5560060922.
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 (rfVa306A) and Arg506-->Gln (rfVa506Q). Both the single and double mutants (rfVa306A/506Q) were constructed. The activation of these procofactors by alpha-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 (fVaPLASMA) 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 (rfVaWT) was inactivated by APC in the presence of phospholipid vesicles at an overall rate slower than fVaPLASMA. The rfVa306A and rfVa506Q mutants were each inactivated at rates slower than rfVaWT and fVaPLASMA. Following a 90-min incubation with APC, rfVa306A and rfVa506Q retain approximately 30-40% of the initial cofactor activity. The double mutant, rfVa306A/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 fVaWT, rfVa306A, rfVa506Q, and rfVa306A/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 rfVaWT and rfVa306A inactivation in the presence of protein S were unchanged, indicating cleavage at Arg506 is not affected by protein S. The initial rate of rfVa506Q inactivation was increased, suggesting protein S slightly accelerates the cleavage at Arg306. Overall, 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.
凝血因子Va(fVa)在精氨酸306、精氨酸506和精氨酸679处被活化蛋白C(APC)切割重链而失活。利用人凝血因子V cDNA的定点诱变来将精氨酸306替换为丙氨酸(rfVa306A)以及将精氨酸506替换为谷氨酰胺(rfVa506Q)。构建了单突变体和双突变体(rfVa306A/506Q)。在使用缺乏凝血因子V的血浆进行的凝血测定中,评估了α-凝血酶对这些前辅因子的激活作用以及APC对它们的失活作用。所有重组蛋白和野生型蛋白都具有相似的初始辅因子活性以及相同的激活产物(一个由轻链和重链组成的凝血因子Va分子)。在HBS Ca2+ +0.5% BSA中或在条件培养基中,在磷脂囊泡存在的情况下,APC对从人血浆中纯化的凝血因子Va(fVaPLASMA)的失活导致了相同的失活曲线,并呈现出相同的切割模式。在磷脂囊泡存在的情况下,重组野生型凝血因子Va(rfVaWT)被APC失活的总体速率比fVaPLASMA慢。rfVa306A和rfVa506Q突变体各自被失活的速率比rfVaWT和fVaPLASMA慢。在与APC孵育90分钟后,rfVa306A和rfVa506Q保留了约30 - 40%的初始辅因子活性。双突变体rfVa306A/506Q对APC的切割和失活完全具有抗性,在APC存在的情况下孵育90分钟后保留了100%的初始辅因子活性。重组fVaWT、rfVa306A、rfVa506Q和rfVa306A/506Q也被用于评估蛋白S对APC作用于该辅因子各个切割位点的影响。在蛋白S存在的情况下,rfVaWT和rfVa306A失活的初始速率未改变,表明在精氨酸506处的切割不受蛋白S影响。rfVa506Q失活的初始速率增加,表明蛋白S略微加速了在精氨酸306处的切割。总体而言,数据证明了APC对凝血因子Va切割位点具有高度特异性,并证明了辅因子在精氨酸306和精氨酸506处的切割对于有效的凝血因子Va失活都是必需的。