Background: Factor V is activated to factor Va to interact with factor Xa.Results: Elimination of nine amino acids from the B domain results in binding of unactivated factor V to factor Xa.Conclusion: Amino acids 1000–1008 of factor V prevent unwanted prothrombinase assembly.Significance: A short peptide sequence from the B region is a regulatory domain for the generation of factor Va procoagulant activity.
2221 The intricate process of hemostasis is a highly regulated mechanism which implements the conversion of prothrombin to thrombin and the crucial formation of a fibrin clot. The direct progression of hemostasis is pivotal to the prevention of various clotting disorders associated to hypercoagulation and excess bleeding. Upon vascular injury, the proteolytic conversion of prothrombin to thrombin compatible to rates of survival is catalyzed by the prothrombinase complex composed of the enzyme, factor Xa (fXa), the cofactor, factor Va (fVa), assembled on a phospholipid membrane in the presence of divalent metal ions. Coagulation factor V (fV) is synthesized as a multi-domain (A1-A2-B-A3-C1-C2) quiescent procofactor with nominal procoagulant activity. Following the three sequential catalytic cleavages by a-thrombin at Arg709, Arg1018 and Arg1545 amino acids 710–1545 of the B-domain are liberated to generate the noncovalently associated light and heavy chains of fVa. The cleavage at Arg1545 is crucial for full procoagulant activity. The heterodimer of fVa is composed of a heavy chain associated with the 2 A domains (residues 1–303 and 317–656) and a light chain composed of one A domain (1546-1877) and two C domains (residues 1878–2036 and 2037–2196). Since single chain fV does not bind fXa, the proper removal of the B-domain is vital to generate procoagulant activity. The incorporation of fVa into the prothrombinase complex results in a 300,000-fold increase in the catalytic efficiency of fXa for thrombin generation. Appropriate binding of fVa to fXa during prothrombinase function is essential to the proper activation of the substrate, prothrombin. Previous studies have determined the heavy and light chains of fVa to have fXa interactive sites. A highly basic region of amino acids in the B-domain suggests a potential sheathing of either the heavy or light chain fXa interface sites. To verify this hypothesis we investigated the role of amino acid region 1000–1008 that contains seven basic amino acid residues. To ascertain the role of this region we have constructed a recombinant mutant fV molecule with all activation cleavage sites (R709/R1018/R1545) mutated to glutamine (fV*T3Q), a mutant fV molecule with region 1000–1008 deleted (fVΔ1000-1008), and a mutant fV molecule containing the same deletion with all activation cleavage sites changed to glutamine (fVΔ1000-1008/*T3Q). The recombinant molecules along with wild type fV (fVWT) were transiently expressed in COS7L cells, purified to homogeneity, and assessed for their capability to bind fXa within prothrombinase prior (fV) and after incubation with thrombin (fVa). The data showed that fV*T3Q and fVa*T3Q were unable to interact with fXa. In contrast, the Kd values for fVΔ1000-1008 (0.9 nM), fVaΔ1000-1008 (0.4 nM), fVΔ1000-1008*T3Q (0.7 nM) and fVaΔ1000-1008*T3Q (0.5 nM), were similar to the affinity of fVaWT for fXa (0.22 nM). Two-stage clotting assays revealed that while fVa*T3Q was practically devoid of clotting activity, the mutant molecules fVaΔ1000-1008, and fVaD1000-1008*T3Q had clotting activities comparable to fVaWT. Thus, unactivated fVΔ1000-1008*T3Q has an affinity for fXa that is similar to the affinity of fVaWT for the enzyme. In addition, fVΔ1000-1008*T3Q that cannot be cleaved and activated by thrombin or activated during the course of the clotting assay, has similar clotting activity as fVaWT (∼3110 U/mg). The data presented in this study provide an important insight into one of the possible roles of the B domain of factor V, explicitly the fXa interactive sites on fVa are covered/inhibited by amino acids 1000–1008 of the fV B-domain. These data strongly suggest that amino acid region 1000–1008 of fV contains a regulatory sequence protecting the organisms from spontaneous binding of the procofactor to fXa and unnecessary prothrombinase complex formation which will result in catastrophic physiological consequences. Disclosures: No relevant conflicts of interest to declare.
1186 Blood clotting results in the proteolytic conversion of prothrombin (Pro) to thrombin which in turn will produce the fibrin clot. The proteolytic conversion of Pro to thrombin is catalyzed by the prothrombinase complex which is composed of the enzyme, factor Xa (FXa), the cofactor, factor Va (FVa), assembled on a membrane surface in the presence of divalent metal ions. Factor V (FV), is a multidomain protein (A1-A2-B-A3-C1-C2) with nominal procoagulant activity and is activated by thrombin to FVa through three sequential proteolytic cleavages at Arg709, Arg1018 and Arg1545. To understand the significance of each cleavage for active cofactor formation and prothrombinase function, recombinant factor V molecules were created by site-directed mutagenesis with two out of three cleavage sites mutated simultaneously (to glutamine). We have generated a FV molecule mutated at the Arg709/1018 cleavage sites (FVQQR), a FV molecule mutated at the Arg709/1545 cleavage sites (FVQRQ), a FV molecule mutated at the Arg1018/1545 cleavage sites (FVRQQ), and a FV molecule that is mutated at all three cleavage sites (FVQQQ). These recombinant FV molecules along with wild type FV (FVWT) were transiently expressed in COS7L cells, purified to homogeneity and assessed for their capability to interact with factor Xa following activation by thrombin, and participate in prothrombinase. Pro activation by prothrombinase assembled with the mutant molecules was evaluated by SDS-PAGE and the kinetic parameters of the reactions in the presence of saturating concentrations of FXa were determined. Two-stage clotting assays revealed that while FVQQQ was devoid of clotting activity following incubation with thrombin, FVaQQR, FVaQRQ and FVaRQQ all had impaired clotting activities compared to FVaWT and plasma derived FVa (FVaPLASMA). Kinetic analyses demonstrated that FVaWT had a Kd of 0.25nM for FXa while all other mutant molecules had impaired binding capabilities for FXa. FVaQQQ was severely impaired in its ability to interact with FXa. The kcat value for prothrombinase assembled with FVaQQR was approximately 50% lower than the kcat obtained with prothrombinase assembled with FVaWT, while prothrombinase assembled with FVaQRQ and FVaRQQ had approximately 3-fold reduced catalytic efficiency when compared to the values obtained with prothrombinase assembled with FVaWT. Following incubation with thrombin prothrombinase assembled with FVaQQQ had no cofactor activity. To determine the importance of the cleavage site at Arg1018 for procofactor activation and the function of amino acid region 1000–1008 during proteolysis, several other recombinant molecules were generated. FVRQR is a FV molecule with the mutation Arg1018→Gln, and FVΔ1000-1008 is a mutant FV molecule with region 1000–1008 deleted. We have also generated FVΔ1000-1008/RQR and FVΔ1000-1008/QRQ. Two-stage clotting assays revealed that FVaRQR and FVaΔ1000-1008/RQR have similar clotting activities as FVaWT, whereas FVaQRQ, FVaΔ1000-1008/QRQ are impaired in their clotting activities. Kinetic analyses demonstrated that FVaRQR and FVaΔ1000-1008/RQR have similar affinity for FXa as FVa WT while FVaQRQ and FVaΔ1000-1008/QRQ were impaired in their interaction with factor Xa. The kcat values for prothrombinase assembled with FVaRQR and FVaΔ1000-1008/RQR were similar to the kcat obtained with prothrombinase assembled with FVa WT, while prothrombinase assembled with FVaQRQ and FVaΔ1000-1008/QRQ had 2-fold and 7-fold reduced catalytic efficiency respectively, when compared to the kcat values obtained with prothrombinase assembled with FVaWT. Overall, the data demonstrate that cleavage at both Arg709 and Arg1545 are a prerequisite for expression of optimum cofactor activity. Our data also suggests that cleavage at Arg1018 is redundant for cofactor activity. The role of cleavage at this site by thrombin during procofactor activation remains to be determined. Disclosures: No relevant conflicts of interest to declare.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.