Cloning and characterization of the 5' end (exon 1) of the gene encoding human factor X

Human blood-coagulation factor X (hBCFX) is a serine protease zymogen which participates in the middle phase of blood coagulation. Recently, we and others have reported the cDNA sequences. At present, partial hBCFX gene structure is available. In this paper, we report the isolation of two genomic clones, the X-emb lambda phage clone encoding exons 1 and 2 of the hBCFX gene, and the X-cos cosmid clone encoding exons 2-8. The restriction map of the hBCFX region spans 55 kb. The gene itself was found to be 27 kb long. The sequence of the 5' region of the hBCFX gene has been determined and reveals an ATTTG pentanucleotide, which also occurs in a similar location in the genes encoding factors VII, IX, protein CC and C prothrombin, suggesting that this motif might be of importance in the regulation of these genes.     

Identification and purification of vitamin K-dependent proteins and peptides with monoclonal antibodies specific for gamma -carboxyglutamyl (Gla) residues

Novel monoclonal antibodies that specifically recognize gamma-carboxyglutamyl (Gla) residues in proteins and peptides have been produced. As demonstrated by Western blot and time-resolved immunofluorescence assays the antibodies are pan-specific for most or all of the Gla-containing proteins tested (factors VII, IX, and X, prothrombin, protein C, protein S, growth arrest-specific protein 6, bone Gla protein, conantokin G from a cone snail, and factor Xa-like proteins from snake venom). Only the Gla-containing light chain of the two-chain proteins was bound. Decarboxylation destroyed the epitope(s) on prothrombin fragment 1, and Ca(2+) strongly inhibited binding to prothrombin. In Western blot, immunofluorescence, and surface plasmon resonance assays the antibodies bound peptides conjugated to bovine serum albumin that contained either a single Gla or a tandem pair of Gla residues. Binding was maintained when the sequence surrounding the Gla residue(s) was altered. Replacement of Gla with glutamic acid resulted in a complete loss of the epitope. The utility of the antibodies was demonstrated in immunochemical methods for detecting Gla-containing proteins and in the immunopurification of a factor Xa-like protein from tiger snake venom. The amino acid sequences of the Gla domain and portions of the heavy chain of the snake protein were determined.     

Experimental DMNA induced hepatic necrosis: early course of haemostatic disorders in the rat

The course of haemostasis defects was investigated in dimethylnitrosamine (DMNA) acute liver necrosis. Before 18 hr there was no evidence of disseminated intravascular coagulation (DIC) nor of abnormal fibrinolysis. At 12 hr the level of the vitamin-K-dependent factors (factors II, VII, IX and X) was reduced to 25-63% of control. Factors V and VIII:C levels decreased to about 10 and 20% by 12 hr. Factor V was the only molecule which decreased significantly by 6 hr. The rapid decrease of these proteins might be related to an early parenchymal functional impairment attested by early structural lesions observed in the endoplasmic reticulum and nucleus. The isolated decrease of factor V in the absence of any significant change in serum transaminase (SGOT and SGPT) levels is proposed, at least in the rat, as an early criterion of hepatic failure.     

The propeptide region of clotting factor IX is a signal for a vitamin K dependent carboxylase: evidence from protein engineering of amino acid -4.

Homologous "propeptide" regions are present in a family of vitamin K-dependent mammalian proteins, including clotting factors II, VII, IX, X, protein C, protein S and bone "gla" proteins. To test the hypothesis that the propeptide is a signal for the correct gamma-carboxylation of the adjacent gamma-carboxy region, we have mutated amino acid -4 of human factor IX from an arginine to a glutamine residue, by M13-directed site-specific mutagenesis of a cDNA clone. After expression of mutant factor IX in dog kidney cells, we find that it is secreted into the medium in a precursor form containing the propeptide, and is inefficiently gamma-carboxylated compared to the control, wild-type, recombinant factor IX. This result supports the hypothesis that the propeptide region is required for efficient gamma-carboxylation of factor IX in dog kidney cells. Furthermore, it confirms previous results that arginine at amino acid -4 is required for correct propeptide processing.     

A conserved epitope on several human vitamin K-dependent proteins. Location of the antigenic site and influence of metal ions on antibody binding

A murine monoclonal antibody (designated H-11) produced by injecting mice with purified human protein C was found to bind several human vitamin K-dependent proteins. Using a solid-phase competitive radioimmunoassay with antibody immobilized onto microtiter plates, binding of 125I-labeled protein C to the antibody was inhibited by increasing amounts of protein C, prothrombin, and Factors X and VII over a concentration range of 1 X 10(-8) to 1 X 10(-6) M. Other vitamin K-dependent proteins including Factor IX and protein S did not inhibit or inhibited only at the highest concentration binding of radiolabeled protein C to the immobilized antibody. Chemical treatment of prothrombin with a variety of agents including denaturation by sodium dodecyl sulfate, reduction with mercaptoethanol followed by carboxymethylation with iodoacetic acid, citraconylation of lysine residues, removal of metal ion with EDTA, or heat decarboxylation did not destroy the antigenic site recognized by the antibody as measured by immunoblotting of prothrombin or prothrombin derivative immobilized onto nitrocellulose. Immunoblotting of purified vitamin K-dependent polypeptides with the monoclonal antibody following sodium dodecyl sulfate-polyacrylamide gel electrophoresis and electrophoretic transfer to nitrocellulose indicated that the antigenic site was found on the light chains of protein C and Factor X. Chymotrypsin digestion of prothrombin and isolation on QAE-Sephadex of the peptide representing amino-terminal residues 1-44 of prothrombin further localized the antigenic site recognized by the monoclonal antibody to the highly conserved gamma-carboxyglutamic acid-containing domain. The exact location of the antigenic determinant for antibody H-11 was established using synthetic peptides. Antibody H-11 bound specifically to synthetic peptides corresponding to residues 1-12 of Factor VII and 1-22 of protein C. Comparison of protein sequences of bovine and human vitamin K-dependent proteins suggests that the sequence Phe-Leu-Glu-Glu-Xaa-Arg/Lys is required for antibody binding. The glutamic acid residues in this peptide segment are the first 2 gamma-carboxyglutamic acid residues near the amino-terminal end in the native proteins. Increasing concentrations of Ca2+, Mg2+, or Mn2+ partially inhibited binding of 125I-protein C to the antibody in a solid-phase assay system with half-maximal binding observed at divalent metal ion concentrations of 2, 4, and 0.6 mM, respectively.(ABSTRACT TRUNCATED AT 400 WORDS)     

Monoclonal antibody (VII-M31) to bovine factor VII: a specific epitope in the gamma-carboxyglutamic acid domain.

A murine monoclonal antibody (designated VII-M31) directed against bovine factor VII was prepared and characterized. Antibody VII-M31 inhibited the activations of both factors IX and X catalyzed by factor VIIa in the presence of tissue factor, phospholipids, and Ca2+. It possessed a strong affinity for factor VII in the presence of 5 mM Ca2+ (Kd = 1.12 x 10(-10)M). The immunoblotting test of other bovine proteins with the antibody, such as prothrombin, factor X, factor IX, protein C, protein S, and protein Z, in addition to human factor VII, revealed that it recognizes only a Ca2(+)-dependent epitope in bovine factor VII. Furthermore, this antibody VII-M31 covalently coupled with Affi-Gel allowed a simple and rapid purification of bovine factor VII. To localize the antigenic site in factor VII, various segments including a gamma-carboxyglutamic acid (Gla)-domainless protein, a Gla-domain peptide and the fragments isolated from the lysyl endopeptidase digest, were prepared. Among them, the isolated Gla-domain peptide and Gla-domainless factor VII were no longer recognized by antibody VII-M31, indicating that the sequence around the cleavage site by a-chymotrypsin is required for the interaction between the antibody and factor VII. In accordance with this result, the antibody bound specifically to a Gla-containing peptide corresponding to the NH2-terminal 23-50 residues of factor VII, which contains the chymotryptic cleavage site. These results suggest that the specific epitope of this antibody is localized in the carboxy-terminal 28 residues of the Gla-domain constituting the amino-terminal portion of bovine factor VII.     

Processing and expression of rat and human clotting factor-X-encoding cDNAs

The cDNA encoding clotting factor X, which participates in the middle stage of the blood coagulation cascade was cloned from a rat liver cDNA library. Sequencing of the rat factor-X-encoding cDNA revealed that this vitamin-K-dependent protein has a dibasic Arg-Arg sequence at the propeptide cleavage site, as occurs in other vitamin-K-dependent proteins. Although the human and rat deduced amino acid sequences are remarkably similar (76% identical), they do significantly differ in that human factor-X contains a unique Thr-Arg sequence at the propeptide cleavage site [Fung et al., Proc. Natl. Acad. Sci. USA 82 (1985) 3591–3595], where a dibasic sequence would normally be expected. This specific site is the recognition motif for the endoprotease, furin, which is located in the Golgi apparatus. Both rat and human cDNAs expressed in Cos-1 cells resulted in secretion of a mixture of single- and two-chain forms of factor X. The two-chain forms were devoid of the propeptide and were produced at similar rates by the transfected cells. The efficient processing of human factor X, when compared to rat factor X, may indicate that an additional protease(s), which recognizes the Thr-Arg motif, may be involved in proteolytic processing of the human enzyme     

Interaction of vitamin K dependent proteins with membranes

The membrane-binding characteristics of six vitamin K dependent plasma proteins, which have homologous amino acid sequences, were compared. All of these proteins display calcium-dependent membrane binding and the identified equilibria for protein-membrane binding are qualitatively the same for all proteins. Quantitative characteristics of these protein-membrane interactions allow organization into distinct subgroups. Protein C and factor VII form a subgroup which has extemely low affinity for bilayer membranes; prothrombin, factor X, and protein S form the tightest complexes with membranes and factor IX displays intermediate affinity. In the presence of manganese (which substitutes for calcium in a cation-dependent protein transition), calcium titration of protein-membrane binding shows the same calcium dependence for all proteins except prothrombin which requires lower calcium. These protein-membrane binding characteristics agree very well with the relatedness of these proteins based on their partial amino-terminal sequences.     

The propeptides of the vitamin K-dependent proteins possess different affinities for the vitamin K-dependent carboxylase.

The vitamin K-dependent gamma-glutamyl carboxylase catalyzes the modification of specific glutamates in a number of proteins required for blood coagulation and associated with bone and calcium homeostasis. All known vitamin K-dependent proteins possess a conserved eighteen-amino acid propeptide sequence that is the primary binding site for the carboxylase. We compared the relative affinities of synthetic propeptides of nine human vitamin K-dependent proteins by determining the inhibition constants (Ki) toward a factor IX propeptide/gamma-carboxyglutamic acid domain substrate. The Ki values for six of the propeptides (factor X, matrix Gla protein, factor VII, factor IX, PRGP1, and protein S) were between 2-35 nM, with the factor X propeptide having the tightest affinity. In contrast, the inhibition constants for the propeptides of prothrombin and protein C are approximately 100-fold weaker than the factor X propeptide. The propeptide of bone Gla protein demonstrates severely impaired carboxylase binding with an inhibition constant of at least 200,000-fold weaker than the factor X propeptide. This study demonstrates that the affinities of the propeptides of the vitamin K-dependent proteins vary over a considerable range; this may have important physiological consequences in the levels of vitamin K-dependent proteins and the biochemical mechanism by which these substrates are modified by the carboxylase.     

Enhanced gamma-carboxylation of recombinant factor X using a chimeric construct containing the prothrombin propeptide

Factor Xa is the serine protease component of prothrombinase, the enzymatic complex responsible for thrombin generation. Production of recombinant factor X/Xa has proven to be difficult because of inefficient gamma-carboxylation, a critical post-translational modification. The affinities of the vitamin K-dependent propeptides for the gamma-carboxylase vary over 2 logs, with the propeptide of factor X having the highest affinity followed by the propeptides of factor VII, protein S, factor IX, protein C, and prothrombin [Stanley, T. B. (1999) J. Biol. Chem. 274, 16940-16944]. On the basis of this observation, it was hypothesized that exchanging the propeptide of factor X with one that binds the gamma-carboxylase with a reduced affinity would enhance gamma-carboxylation by allowing greater substrate turnover. A chimeric cDNA consisting of the human prothrombin signal sequence and propeptide followed by mature human factor X was generated and stably transfected into HEK 293 cells, and modified factor X was purified from conditioned medium. The results indicate that on average 85% of the total factor X produced with the prothrombin propeptide was fully gamma-carboxylated, representing a substantial improvement over a system that employs the native factor X propeptide, with which on average only 32% of the protein is fully gamma-carboxylated. These results indicate that the affinity of the gamma-carboxylase for the propeptide greatly influences the extent of gamma-carboxylation. It was also observed that regardless of which propeptide sequence is directing gamma-carboxylation (factor X or prothrombin), two pools of factor X are secreted; one is uncarboxylated and a second is fully gamma-carboxylated, supporting the notion that the gamma-carboxylase is a processive enzyme.     

A new vitamin K-dependent protein. Purification from bovine plasma and preliminary characterization.

Four proteins active in blood coagulation have long been known to require vitamin K for their proper biosynthesis: factors II, VII, IX, and X. This paper describes the purification of a hitherto unrecognized vitamin K-dependent glycoprotein from bovine plasma. The biosynthesis of this protein is interfered with by the vitamin K antagonist Dicoumarol. The molecular weight of the protein is approximately 56,000 and, like factor X, it has two polypeptide chains. The light chain binds Ca2+. Its NH2-terminal amino acid sequence is homologous to the NH2-terminal sequences of the other vitamin K-dependent proteins and it contains vitamin K-dependent gamma-carboxyglutamic acid residues. The biological function of this protein is unknown.     

A Procedure for Isolation of Human Protein C and Protein S as by-Products of the Purification of Factors VII,IX, X and Prothrombin

Abstract

A DEAE-Sephadex column chromatography step utilized to purify human Factor VII consistently yields a protein peak between the factor VII activity peak and prothrombin, factor X and factor IX activity peak (S.P. Bajaj, S.I. Rapaport, and S.F. Brown: J. Biol. Chem. 251., 253-259, 1981). We now report that this protein peak contains protein C and protein S. Preparative disc polyacryla-mide gel electrophoresis of the proteins in this peak 'permitted a complete separation of protein C from protein S. Protein C at this step usually contained approximately 5-10% of Factor X, which could be removed by a goat anti-human Factor X antibody column. For a typical preparation, starting with 10L of plasma, the yield of Protein C was 5 mg and of protein S was 4 mg. Both proteins     

Introduction to the blood coagulation cascade and cloning of blood coagulation factors

The coagulation cascade that occurs in mammalian plasma involves a large number of plasma proteins that participate in a stepwise manner and eventually give rise to the formation of thrombin. This enzyme then converts fibrinogen to an insoluble fibrin clot. This series of reactions involves a number of glycoproteins that particupate as enzymes as well as cofactors. These proteins that circulate in the blood in a precursor or zymogen form are multifunctional proteins that share many common segments or domains. One group includes the vitamin K-dependent glycoproteins (prothrombin, factor IX, factor X, and protein C) that show considerable homology in both their amino acid sequences and their gene structures. The proteins that participate in the contact or early phase of the blood coagulation cascade include plasma prekallikrein, factor XII, and factor IX. The amino-terminal regions of both factor XI and plasma prekallikrein contain four tandem repeats of about 90 amino acids, and these tandem repeats show considerable amino acid sequence homology. Factor XII contains four different domains in the amino-terminai region of the protein, including a kringle structure, two growth factor domains, and type I and type II finger domains. The finger domains were first identified in fibronectin. The carboxyl-terminal portion of plasma prekallikrein, factor XII, and factor XI contains the serine or protease portion of the molecule. These various plasma proteins that share common domains appear to have evolved by gene shuffling that may have, in some cases, involved introns.     

Simultaneous generation of aptamers to multiple gamma-carboxyglutamic acid proteins from a focused aptamer library using DeSELEX and convergent selection

By using the in vitro selection method SELEX against the complex mixture of GLA proteins and utilizing methods to deconvolute the resulting ligands, we were able to successfully generate 2'-ribo purine, 2'-fluoro pyrimidine aptamers to various individual targets in the GLA protein proteome that ranged in concentration from 10 nM to 1.4 microM in plasma. Perhaps not unexpectedly, the majority of the aptamers isolated following SELEX bind the most abundant protein in the mixture, prothrombin (FII), with high affinity. We show that by deselecting the dominant prothrombin aptamer the selection can be redirected. By using this DeSELEX approach, we were able to shift the selection toward other sequences and to less abundant protein targets and obtained an aptamer to Factor IX (FIX). We also demonstrate that by using an RNA library that is focused around a proteome, purified protein targets can then be used to rapidly generate aptamers to the protein targets that are rare in the initial mixture such as Factor VII (FVII) and Factor X (FX). Moreover, for all four proteins targeted (FII, FVII, FIX, and FX), aptamers were identified that could inhibit the individual protein's activitity in coagulation assays. Thus, by applying the concepts of DeSELEX and focused library selection, aptamers specific for any protein in a particular proteome can theoretically be generated, even when the proteins in the mixture are present at very different concentrations.     

Missense mutations and evolutionary conservation of amino acids: evidence that many of the amino acids in factor IX function as "spacer" elements.

We report 31 point mutations in the factor IX gene and explore the relationship between the level of evolutionary conservation of an amino acid and the probability of a mutation causing hemophilia B. From our total sample of 125 hemophiliacs and from those reported by others, we identify 95 independent missense mutations, 94 of which occur at amino acids that are evolutionarily conserved in the available mammalian factor IX sequences. The likelihood of a missense mutation causing hemophilia B depends on whether the residue is also conserved in the factor IX-related proteases: factor VII, factor X, and protein C. Most of the possible missense mutations in generically conserved residues (i.e., those conserved in factor IX and in all the related proteases) should cause disease. In contrast, missense mutations in factor IX-specific residues (i.e., those conserved in human, cow, dog, and mouse factor IX but not in the related proteases) are sixfold less likely to cause disease. Missense mutations at nonconserved residues are 33-fold less likely to cause disease. At least three models are compatible with these observations. A comparison of sequence alignments from four and nine species of factor IX and an examination of the missense mutations occurring at CpG residues suggest a model in which most residues fall on opposite ends of a spectrum. In about 40% of residues, virtually any missense mutation in a minority of the residues will cause disease, while virtually no missense mutations will cause disease in most of the remaining residues. Thus, many of the residues in factor IX are spacers; that is, the main chains are presumably necessary to keep other amino acid interactions in register, but the nature of the side chain is unimportant.     

Identification of a disaccharide (Xyl-Glc) and a trisaccharide (Xyl2-Glc) O-glycosidically linked to a serine residue in the first epidermal growth factor-like domain of human factors VII and IX and protein Z and bovine protein Z

We have recently described a unique trisaccharide linked to a serine residue in the first epidermal growth factor-like domains of bovine blood coagulation factors VII (Ser-52) and IX (Ser-53) (Hase, S., Kawabata, S., Nishimura, H., Takeya, H., Sueyoshi, T., Miyata, T., Iwanaga, S., Takao, T., Shimonishi, Y., and Ikenaka, T. (1988) J. Biochem. (Tokyo) 104, 867-868). The sugar chain identified in these clotting factors consists of 1 mol of hexose (glucose (Glc] and 2 mol of pentose (xylose (Xyl]. We report here that human factors VII and IX and protein Z and bovine protein Z also contain such carbohydrate moieties linked to a serine residue at the same position found in bovine factors VII and IX. A glycopeptide derived from each of these proteins was subjected to amino acid sequence and component sugar analyses and fast atom bombardment mass spectrometric analysis. The results indicate that the glycopeptide derived from human factor IX contains 1 mol each of Glc and Xyl. The reducing end of this disaccharide was identified as Glc by analyzing the disaccharide generated by hydrazinolysis. In contrast, human factor VII and protein Z yielded two different glycopeptides which contained Glc and Xyl at molar ratios of 1:1 and 1:2, respectively, suggesting microheterogeneity of these O-linked sugar chains. Bovine protein Z glycopeptide contained 1 mol of Glc and 2 mol of Xyl. These sugar compositions were confirmed by analyses of the intact proteins. In relation to the trisaccharide sugar chain previously discovered in bovine factors VII and IX, these findings indicate the existence of a Xyl2-Glc-Ser and a Xyl-Glc-Ser structure in the first epidermal growth factor-like domains of human factors VII and IX and protein Z in addition to that of bovine protein Z. Whether these carbohydrate moieties contribute to the biological activities of these proteins is unknown.     

Association of congenital deficiency of multiple vitamin K-dependent coagulation factors and the phenotype of the warfarin embryopathy: clues to the mechanism of teratogenicity of coumarin derivatives.

We have evaluated a boy who had excessive bleeding and bruising from birth and showed markedly prolonged prothrombin times, partially correctable by oral vitamin K administration. Additional laboratory studies demonstrated decreased activities of plasma factors II, VII, IX, and X; near normal levels of immunologically detected and calcium binding-independent prothrombin; undercarboxylation of prothrombin; excess circulating vitamin K epoxide; decreased excretion of carboxylated glutamic acid residues; and abnormal circulating osteocalcin. These results all are consistent with effects resulting from decreased posttranslational carboxylation secondary to an inborn deficiency of vitamin K epoxide reductase. This individual also had nasal hypoplasia, distal digital hypoplasia, and epiphyseal stippling on infant radiographs, all of which are virtually identical to features seen secondary to first-trimester exposure to coumarin derivatives. Therefore, by inference, the warfarin embryopathy is probably secondary to warfarin's primary pharmacologic effect (interference with vitamin K-dependent posttranslational carboxylation of glutamyl residues of various proteins) and may result from undercarboxylation of osteocalcin or other vitamin K-dependent bone proteins.     

Activated prothrombin complex preparations for the treatment of anticoagulant hemophilia. Preparation--method of operation--supply possibility]

The mechanism of the bypass activity of prothrombin complex preparatives for treatment of haemophiliacs with circulating anticoagulants remains unclear up to now. The following parameters had been tested with preparatives produced in a different manner (absorption by DEAE-Sephadex A 50, Molselekt A 50, tricalcium phosphate or aluminium hydroxide): Coagulation factors II, VII, IX, X and XII, activated factors VIIa and Xa as well as the FEIB activity. The bypass activity is strongly correlated to the factor VIIa content of the preparatives, however. These results agree with the statements by HEDNER and KISIEL, which had used a factor VII a concentrate for treatment of haemophilia complicated by circulating anticoagulants with success. According to farther investigations factor VII is correlated with the lipid content of the starting plasma. This knowledge is important for optimizing the production procedure of prothrombin complex preparatives with bypassing activity.