G20210A mutation in the prothrombin gene and the risk of recurrent venous thromboembolism.

OBJECTIVES: The study was done to determine whether the G20210A mutation in the prothrombin gene increases the risk of recurrent venous thromboembolism (VTE), both alone and in combination with factor V Leiden. BACKGROUND: Several inherited defects of coagulation are associated with increased risk of first VTE, including a recently identified G20210A mutation in the prothrombin gene. However, whether the presence of this mutation confers an increased risk of recurrent venous thromboembolism is controversial. METHODS: A total of 218 men with incident venous thromboembolism were genotyped for the prothrombin mutation and for factor V Leiden and were followed prospectively for recurrent VTE over a follow-up period of 7.3 years. RESULTS: A total of 29 men (13.3%) suffered recurrent VTE. Five of the 14 carriers of the prothrombin mutation developed recurrent VTE (35.7%; incidence rate = 8.70 per 100 person-years), while 24 of 204 individuals who did not carry the prothrombin mutation developed recurrent VTE (11.8%; incidence rate = 1.76 per 100 person-years). Thus, presence of the G20210A mutation was associated with an approximate fivefold increased risk for recurrent VTE (crude relative risk [RR] 4.93; 95% confidence interval [CI] 1.9-12.9; p = 0.001; age-, smoking-, and body mass index-adjusted RR 5.28; 95% CI 2.0-14.0; p = 0.001). In these data, recurrence rates were similar among those with an isolated mutation in the prothrombin gene (18.2%) as compared to those with an isolated factor V Leiden mutation (19.2%). However, all three study participants who carried both mutations (100%) suffered a recurrent event during follow-up. CONCLUSIONS: In a prospective evaluation of 218 men, the presence ofprothrombin mutation was associated with a significantly increased risk of recurrent VTE, particularly among those who co-inherited factor V Leiden.

Definition of a factor Va binding site in factor Xa.

We reported previously that residue 347 in activated fX (fXa) contributes to binding of the cofactor, factor Va (fVa) (Rudolph, A. E., Porche-Sorbet, R. and Miletich, J. P. (2000) Biochemistry 39, 2861-2867). Four additional residues that participate in fVa binding have now been identified by mutagenesis. All five resulting fX species, fX(R306A), fX(E310N), fX(R347N), fX(K351A), and fX(K414A), are activated and inhibited normally. However, the rate of inhibition by antithrombin III in the presence of submaximal concentrations of heparin is reduced for all the enzymes. In the absence of fVa, all of the enzymes bind and activate prothrombin similarly except fXa(E310N), which has a reduced apparent affinity ( approximately 3-fold) for prothrombin compared with wild type fXa (fXa(WT)). In the absence of phospholipid, fVa enhances the catalytic activity of fXa(WT) significantly, but the response of the variant enzymes was greatly diminished. On addition of 100 nm PC:PS (3:1) vesicles, fVa enhanced fXa(WT), fXa(R306A), and fXa(E310N) similarly, whereas fXa(R347N), fXa(K351A), and fXa(K414A) demonstrated near-normal catalytic activity but reduced apparent affinity for fVa under these conditions. All enzymes function similarly to fXa(WT) on activated platelets, which provide saturating fVa on an ideal surface. Loss of binding affinity for fVa as a result of the substitutions in residues Arg-347, Lys-351, and Lys-414 was verified by a competition binding assay. Thus, Arg-347, Lys-351, and Lys-414 are likely part of a core fVa binding site, whereas Arg-306 and Glu-310 serve a less critical role.

Directed glycosylation of human coagulation factor X at residue 333. Insight into factor Va-dependent prothrombin catalysis.

Based on homology, amino acids 326-336 (143-154 in chymotrypsin numbering) of factor X (fX) comprise a flexible surface loop, which is susceptible to self-proteolysis and influences substrate catalysis. To investigate the role of this autolysis loop in fX function, a recombinant variant with a new site for asparagine-linked glycosylation has been produced by changing glutamine 333 to asparagine. Q333N fX is activated normally by factor VIIa and tissue factor, factors IXa and VIIIa, and Russell's viper venom. Proteolysis of the loop is prevented by the mutation. Reactivity of the free enzyme toward substrates and inhibitors is attenuated 4-20-fold; relative to wild type fXa, Spectrozyme Xa(TM) hydrolysis is 25%, inhibition by antithrombin III and the tissue factor pathway inhibitor is approximately 20%, and prothrombin activation in the absence of the cofactor Va is only 5%. Surprisingly, activities of the variant and wild type enzymes are equivalent when part of the prothrombinase complex. N-Glycanase cleaves the new oligosaccharide from Q333N fXa leaving aspartic acid. Q333D fXa is approximately 1.6-fold more reactive with Spectrozyme Xa(TM), antithrombin III and tissue factor pathway inhibitor, and prothrombin than its glycosylated counterpart, Q333N fXa, but still quite abnormal relative to wild type fXa. Like Q333N fXa, Q333D fXa is fully functional as part of the prothrombinase complex. We conclude that Gln-333 is geographically close to a site of proteolytic degradation but not to activator, cofactor, or membrane binding sites. Mutation of Gln-333 impairs catalytic function, but given normal prothrombin activation by the complexed enzyme, the importance of Gln-333 for catalysis is not manifest in the prothrombinase assembly, suggesting a conformational change in complexed fXa.

Substitution of asparagine for arginine 347 of recombinant factor Xa markedly reduces factor Va binding.

Herein we describe a recombinant factor X (fX) with a single substitution at position 347 (fXR347N). Activated fXR347N had a reduced affinity for factor Va (fVa), although the catalytic impact of fVa binding remained intact. The mutation was selective as demonstrated by normal activation and inhibition, except in the presence of subsaturating heparin where the rate of inhibition by antithrombin III (ATIII) was 15% of normal. The reactivity of fXaR347N toward prothrombin was equivalent to wild-type fXa (fXaWT) in the absence of fVa and phospholipid. Addition (without phospholipid) of fVa dramatically increased the catalytic efficiency of fXaWT toward prothrombin but had a negligible effect on fXaR347N. On addition of phosphatidylcholine:phosphatidylserine (PC:PS, 3:1) vesicles, fXaR347Ndisplayed an increased catalytic activity in response to fVa, but the apparent affinity for fVa on the phospholipid surface was 5-20-fold lower than that of fXaWT. On an activated platelet surface, however, fXaWT and fXaR347N activated prothrombin similarly. In a competitive binding assay that measures the displacement of radiolabeled fXa from fVa on a phospholipid surface, fXaR347N was approximately 10-fold less effective than fXaWT. Substitution of fXa at position 347 selectively attenuates the interaction between fXa and fVa without affecting its catalytic activity.

G20210A mutation in prothrombin gene and risk of myocardial infarction, stroke, and venous thrombosis in a large cohort of US men.

BACKGROUND: A single base pair mutation in the prothrombin gene has recently been identified that is associated with increased prothrombin levels. Whether this mutation increases the risks of arterial and venous thrombosis among healthy individuals is controversial. METHODS AND RESULTS: In a prospective cohort of 14 916 men, we determined the prevalence of the G20210A prothrombin gene variant in 833 men who subsequently developed myocardial infarction, stroke, or venous thrombosis (cases) and in 1774 age- and smoking status-matched men who remained free of thrombosis during a 10-year follow-up (control subjects). Gene sequencing was used to confirm mutation status in a subgroup of participants. Overall, carrier rates for the G20210A mutation were similar among case and control subjects; the relative risk of developing any thrombotic event in association with the 20210A allele was 1.05 (95% CI, 0.7 to 1.6; P=0.8). We observed no evidence of association between mutation and myocardial infarction (RR=0.8, P=0.4) or stroke (RR=1.1, P=0.8). For venous thrombosis, a modest nonsignificant increase in risk was observed (RR=1.7, P=0.08) that was smaller in magnitude than that associated with factor V Leiden (RR=3.0, P<0. 001). Nine individuals carried both the prothrombin mutation and factor V Leiden (5 controls and 4 cases). One individual, a control subject, was homozygous for the prothrombin mutation. CONCLUSIONS: In a large cohort of US men, the G20210A prothrombin gene variant was not associated with increased risk of myocardial infarction or stroke. For venous thrombosis, risk estimates associated with the G20210A mutation were smaller in magnitude than risk estimates associated with factor V Leiden.

Thrombophilia as a multigenic disorder.

Substantial progress has been made in the study of inherited abnormalities that predispose to venous thrombosis. With new discoveries, the focus has shifted from rare deficiencies associated with high probability for events to relatively common aberrations that produce high risk only in combination. Interactions between inherited and acquired disorders are also attracting much attention. The challenge for the future is how to best discover new risk factors and understand their contributions to multifactorial events.

Factor V Leiden mutation as a risk factor for recurrent pregnancy loss.

BACKGROUND: Recurrent pregnancy loss may result from hypercoagulability. OBJECTIVE: To determine whether women with factor V Leiden mutation, a common inherited defect of coagulation, are at increased risk for recurrent pregnancy loss. DESIGN: Case-control study. SETTING: University hospital. PATIENTS: 113 consecutive women referred for evaluation of recurrent spontaneous abortion (case-patients) and 437 postmenopausal women with at least one successful pregnancy and no history of pregnancy loss (controls). An additional survey of 387 postmenopausal women with at least one pregnancy loss was also conducted. MEASUREMENTS: Prevalence of factor V Leiden mutation determined by a second-generation screening test for resistance to activated protein C with genetic confirmation of all borderline and low-value results. RESULTS: Prevalence of the factor V Leiden mutation was greater among case-patients (8.0%) than among controls (3.7%) (odds ratio, 2.3 [95% CI, 1.0 to 5.2]; P = 0.050). In the subgroup of case-patients with three or more pregnancy losses and no successful pregnancies, prevalence of the mutation was 9.0% (odds ratio, 2.6 [CI, 1.0 to 6.7]; P = 0.048). Among the additional women surveyed, the prevalence of the mutation in those with three or more pregnancy losses (7.5%) was almost identical to that in case-patients. Thus, in all evaluated women with several pregnancy losses, the prevalence of factor V Leiden was increased 2.2-fold (P = 0.026). CONCLUSION: These data are compatible with the hypothesis that factor V Leiden mutation may play a role in some cases of unexplained recurrent pregnancy loss.

The low-density lipoprotein receptor-related protein (LRP) mediates clearance of coagulation factor Xa in vivo.

Blood coagulation factor X plays a pivotal role in the clotting cascade. When administered intravenously to mice, the majority of activated factor X (factor Xa) binds to alpha 2-macroglobulin (alpha 2M) and is rapidly cleared from the circulation into liver. We show here that the low-density lipoprotein receptor-related protein (LRP) is responsible for factor Xa catabolism in vivo. Mice overexpressing a 39-kD receptor-associated protein that binds to LRP and inhibits its ligand binding activity displayed dramatically prolonged plasma clearance of 125I-factor Xa. Preadministration of alpha 2M-proteinase complexes (alpha 2M*) also diminished the plasma clearance of 125I-factor Xa in a dose-dependent fashion. The clearance of preformed complexes of 125I-factor Xa and alpha 2M was similar to that of 125I-factor Xa alone and was also inhibited by mice overexpressing a 39-kD receptor-associated protein. These results thus suggest that, in vivo, factor Xa is metabolized via LRP after complex formation with alpha 2M.

Expression, purification, and characterization of recombinant human factor X.

A system is described for producing recombinant factor X with properties very similar to human plasma factor X. Optimization of the expression system for factor X resulted in the finding that human kidney cells (293 cells) are superior to the widely utilized baby hamster kidney cells (BHK cells) for the expression of functional factor X. It was also determined that production of factor X by 293 cells requires the substitution of the -2 residue (Thr-->Arg) which affords the removal of the factor X propeptide. Purification of recombinant and plasma factor X is accomplished using a calcium-dependent monoclonal antibody directed against the gla domain. The proteins are comparable by sodium dodecyl sulfate polyacrylamide gel electrophoresis. The rate and extent of activation by the factor X coagulant protein from Russell's viper venom and by factors IXa and VIIIa are similar; activation of the recombinant protein by VIIa and tissue factor is mildly faster. The activated enzymes have the same activity toward a chromogenic substrate and the biologic substrate, prothrombin. Both enzymes have the same apparent affinity for the activated platelet surface as judged by their ability to activate prothrombin. Finally, inhibition by antithrombin, with or without heparin, and inhibition by the tissue factor pathway inhibitor are equivalent. Recombinant factor X produced by this method is therefore well suited for probing structure-function relationships by mutational analysis.

Ethnic distribution of factor V Leiden in 4047 men and women. Implications for venous thromboembolism screening.

OBJECTIVE: To estimate ethnic-specific prevalence rates of factor V Leiden, an inherited defect of hemostasis associated with risk of venous thrombosis. DESIGN: Survey of 4047 American men and women participating in the Physicians' Health Study (PHS) or in the Women's Health Study (WHS). All study participants were free of myocardial infarction, stroke, or venous thrombosis. MAIN OUTCOME MEASURE: Prevalence of G1691A Leiden mutation in the gene coding for coagulation factor V was determined in the PHS group using polymerase chain reaction techniques and, in the WHS group, a second-generation activated protein C (APC)-resistance screening test with genetic confirmation of all borderline and low-value results. RESULTS: In 2468 Caucasian Americans, carrier frequency of factor V Leiden was 5.27% (95% confidence interval [CI], 4.42%-6.22%). Carrier frequency was 2.21% in 407 Hispanic Americans, 1.23% in 650 African Americans, 0.45% in 442 Asian Americans, and 1.25% in 80 Native Americans. Thus, prevalence of factor V Leiden was less among minority subjects (P=.001). Carrier frequencies were similar in Caucasian men and women (5.53% vs 4.85% respectively, P=.5). CONCLUSION: These data indicate that prevalence of factor V Leiden is greater among Caucasians than minority Americans. These data have implications for clinicians considering whether to screen for factor V Leiden in high-risk groups such as those with prior venous thromboses or coexistent defects of anticoagulation and women at risk for postpartum thrombosis or seeking oral contraceptives.

Interrelation of hyperhomocyst(e)inemia, factor V Leiden, and risk of future venous thromboembolism.

BACKGROUND: Because patients with rare familial homocystinuria who also carry factor V Leiden have an increased incidence of venous thromboembolism (VTE), we hypothesized an interrelation of moderate hyperhomocyst(e)inemia, factor V Leiden, and risk of VTE in the general population. METHODS AND RESULTS: In a large prospective cohort, we determined total homocysteine level and factor V Leiden mutation in baseline blood samples from 145 initially healthy men who subsequently developed VTE and among 646 men who remained free of vascular disease during a 10-year follow-up period. Hyperhomocyst(e)inemia was defined as a total homocysteine level above the 95th percentile (17.25 mumol/L). Compared with men with normal total homocysteine levels, those with hyperhomocyst(e)inemia had no increase in risk of any VTE but were at increased risk of idiopathic VTE (relative risk [RR] = 3.4, P = .002). Compared with men without Leiden mutation, those with mutation were at increased risk of developing any VTE (RR = 2.3, P = .005) as well as idiopathic VTE (RR = 3.6, P = .0002). Compared with men with neither abnormality, those affected by both disorders had a 10-fold increase in risk of any VTE (RR = 9.65, P = .009) and a 20-fold increase in risk of idiopathic VTE (RR = 21.8, P = .0004). CONCLUSIONS: Apparently healthy men with coexistent hyperhomocyst(e)inemia and Leiden mutation are at substantially increased risk of developing future VTEs, particularly those events considered idiopathic. In these data, the risk of VTE among doubly affected individuals was far greater than the sum of the individual risks associated with either abnormality alone.

Age-specific incidence rates of venous thromboembolism among heterozygous carriers of factor V Leiden mutation.

BACKGROUND: Previous reports suggest that younger carriers of the factor V Leiden mutation are at greater risk for venous thromboembolism than are older carriers. However, available data on thromboembolic risk are limited. OBJECTIVE: To determine age-specific incidence rates of venous thromboembolism associated with the factor V Leiden mutation. DESIGN: Prospective cohort study. PATIENTS: 14,916 initially healthy men participating in the Physicians' Health Study who were followed from 1982 to August 1994 for the occurrence of deep venous thrombosis or pulmonary embolism. MEASUREMENTS: Polymerase chain reaction was used to determine factor V Leiden mutation status in 156 study participants who developed venous thromboembolism during follow-up and in 2406 study participants who remained free of vascular disease. RESULTS: Risks for venous thromboembolism in heterozygous carriers of factor V Leiden mutation increased with age at a rate significantly greater than that in noncarriers. Whereas incidence rates of venous thromboembolism were similar in men with and men without the factor V Leiden mutation who were younger than 50 years of age, incidence rate differences (per 1000 person-years of observation) between affected and unaffected men increased significantly from 1.23 (95% CI, -0.4 to 2.9) for those aged 50 to 59 years to 1.61 (CI, -0.5 to 3.7) for those aged 60 to 69 years of age to 5.97 (CI, 0.6 to 11.3) for those aged 70 years or older (P for trend = 0.008). For idiopathic venous thromboembolism, age-specific incidence rate differences between men with and without the factor V Leiden mutation increased significantly with age (P = 0.017). However, no significant relation was found for secondary events (P > 0.2). CONCLUSIONS: The findings support the hypothesis that the pathogenesis of venous thromboembolism involves acquired as well as genetic risk factors and indicate that determination of factor V Leiden mutation status should not be limited to young patients.

Arterial and venous thrombosis is not associated with the 4G/5G polymorphism in the promoter of the plasminogen activator inhibitor gene in a large cohort of US men.

BACKGROUND: The 4G allele of the 4G/5G polymorphism in the promoter of the plasminogen activator inhibitor (PAI-1) gene is associated with increased PAI-1 activity. In a small group of young Swedish men, this allele has been reported to predict risk of myocardial infarction. Whether this polymorphism increases risk of arterial and venous thrombosis among middle-aged men is unknown. METHODS AND RESULTS: Among 14916 men 40 to 84 years old participating in the Physicians' Health Study who provided baseline blood samples for DNA analysis, 374 suffered first myocardial infarction and 121 had venous thromboembolism during 8.6 years of follow-up. Distributions of the 4G/5G polymorphism in the PAI-1 gene promoter were assessed in these men as well as in a sample of study participants matched on age and smoking who did not develop vascular occlusion during the prospective follow-up period. The distributions of the 4G/4G, 4G/5G, and 5G/5G genotypes among men who developed myocardial infarction (0.27, 0.51, 0.22; P = .7) or venous thromboembolism (0.30, 0.49, 0.21; P = .5) were virtually identical to those of men who remained free of vascular disease (0.27, 0.50, 0.23). Thus, the relative risk of future thrombosis among those with the 4G/4G genotype compared with those without the 4G/4G genotype was 1.02 (95% CI, 0.8 to 1.3). There was no effect modification by age, smoking status, family history of premature thrombosis, history of hypertension, hypercholesterolemia, or aspirin use. CONCLUSIONS: These data indicate that the 4G/5G polymorphism in the promoter of the PAI-1 gene is not a major pathogenetic risk factor for arterial or venous thrombosis among middle-aged men.

Factor XSt. Louis II. Identification of a glycine substitution at residue 7 and characterization of the recombinant protein.

A molecular defect in factor X (fX) results from a point mutation that causes glycine substitution for gamma-carboxylated glutamic acid at position 7. The variant (fXSt. Louis II) and wild type (fXWT) proteins were produced in a mammalian expression system and characterized. fXSt. Louis II has <1% and approximately 3% of normal clotting activity in modified prothrombin time and partial thromboplastin time assays, respectively. The rate of activation of fXSt. Louis II by factor VIIa and tissue factor is undetectable under conditions that result in complete activation of fXWT; activation by factors VIIIa and IXa is approximately 30% of normal activation. The X-activating protein from Russell's viper venom activates fXSt. Louis II completely but at a reduced rate. Thrombin generation on phoshopolipid vesicles or activated platelets is approximately 30% or approximately 5%, respectively. Membrane-dependent autolysis is markedly reduced for fXSt. Louis II. In reactions that are not surface-dependent, fXSt. Louis II is nearly identical to that of fXWT. The rate of inhibition by antithrombin is indistiguishable, as is the rate of thrombin formation in the absence of phospholipid, with or without factor Va.

Factor V Leiden and risks of recurrent idiopathic venous thromboembolism.

BACKGROUND: Whether Leiden mutation in the gene coding for coagulation factor V is associated with recurrent idiopathic venous thromboembolism (VTE) is unknown, but such data are necessary to evaluate the merits of genetic screening in secondary prevention of thromboembolic disease. METHODS AND RESULTS: Among 14,916 apparently healthy men who provided DNA samples and were followed in the Physicians' Health Study through August 1994, 77 suffered an idiopathic VTE. These 77 men were followed for an additional average period of 68.3 months, during which time 11 (14.3%) suffered a recurrent idiopathic VTE. Factor V Leiden status was assessed in these men, and incidence rates of recurrence were calculated by genotype. All recurrent events occurred after cessation of anticoagulation. Seven recurrences occurred among 63 genetically unaffected subjects (11.1%; incidence rate, 1.82 per 100 person-years), while four occurred among those 14 heterozygous for factor V Leiden (28.6%; incidence rate, 7.46 per 100 person-years). Thus, factor V Leiden was associated with a fourfold to fivefold increase in risk of recurrent VTE (crude relative risk, 4.1; P = .04; age- and smoking-adjusted relative risk, 4.7; P = .047). There was no difference in mean time between index and recurrent events by genotype. Among heterozygous men, 76% of recurrent events were attributable to mutation. CONCLUSIONS: In prospective evaluation of 77 men with a history of idiopathic VTE, factor V Leiden was associated with a fourfold to fivefold increased risk of recurrent thrombosis. These data raise the possibility that patients with VTE affected by factor V Leiden may require more prolonged anticoagulation to prevent recurrent disease compared with those without mutation.

Mutation in the gene coding for coagulation factor V and the risk of myocardial infarction, stroke, and venous thrombosis in apparently healthy men.

BACKGROUND: A specific point mutation in the gene coding for coagulation factor V is associated with resistance to degradation by activated protein C, a recently described abnormality of coagulation that may be associated with an increased risk of venous thrombosis. Whether this mutation also predisposes patients to arterial thrombosis is unknown, as is the value of screening for the mutation in order to define the risk of venous thrombosis among unselected healthy people. METHODS: Among 14,916 apparently healthy men in the Physicians' Health Study who provided base-line blood samples, 374 had myocardial infarctions, 209 had strokes, and 121 had deep venous thrombosis, pulmonary embolism, or both, during a mean follow-up of 8.6 years. We determined whether a mutation at nucleotide position 1691 of the factor V gene was present or absent in these 704 men and in an equal number of matched participants who remained free of vascular disease. RESULTS: The prevalence of heterozygosity for the mutation among men who had myocardial infarctions (6.1 percent, P = 0.9) or strokes (4.3 percent, P = 0.4) was similar to that among men who remained free of vascular disease (6.0 percent). However, the prevalence of the mutation was significantly higher among men who had venous thrombosis, pulmonary embolism, or both (11.6 percent, P = 0.02). In adjusted analyses, the relative risk of venous thrombosis among men with the mutation was 2.7 (95 percent confidence interval, 1.3 to 5.6; P = 0.008). This increased risk was seen with primary venous thrombosis (relative risk, 3.5; 95 percent confidence interval, 1.5 to 8.4; P = 0.004) but not with secondary venous thrombosis (relative risk, 1.7; 95 percent confidence interval, 0.6 to 5.3; P = 0.3), and it was most apparent among older men. Specifically, the prevalence of the mutation among men over the age of 60 in whom primary venous thrombosis developed was 25.8 percent (relative risk, 7.0; 95 percent confidence interval, 2.6 to 19.1; P < 0.001). CONCLUSIONS: In a large cohort of apparently healthy men, the presence of a specific point mutation in the factor V gene was associated with an increased risk of venous thrombosis, particularly primary venous thrombosis. The presence of the mutation was not associated with an increased risk of myocardial infarction or stroke. This mutation appears to be the most common inherited factor thus far recognized that predisposes patients to venous thrombosis.