Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0033036 (APC)
10,214 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This report describes the characterization of Swedish families with inherited resistance to activated protein C (APC resistance) and/or protein S deficiency, two genetic disorders associated with functional impairment of the protein C anticoagulant pathway. The APC resistance phenotype was linked to the factor V gene locus in a kindred with independent inheritance of APC resistance and protein S deficiency. A point mutation changing Arg506 to a Gln (FV:Q506) in the factor V gene was the cause of APC resistance. In studies of 50 families with hereditary APC resistance, the FV:Q506 mutation was identified in 94% (47/50) of the families, and the thrombotic risk was found to be dependent on the factor V genotype. Moreover, 18 families with hereditary deficiency of free protein S were investigated. Type I protein S deficiency (low free and total protein S) and type III deficiency (low free but normal total protein S) coexisted in 78% (14/18) of the families, suggesting the two types to be phenotypic variants of the same genetic disorder. Deficiency of free protein S was caused by equimolar relationship between protein S and beta-chain containing isoforms of C4BP. Though protein S deficiency was a strong risk factor for thrombosis, the FV:Q506 mutation was identified as an additional genetic risk factor in 39% of the families. Thus, familial thrombophilia is a multiple gene disorder. The thrombophilic tendency associated with APC resistance or protein S deficiency was related to increased levels of prothrombin fragment 1 + 2, reflecting increased activation of the common coagulation pathway.
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PMID:Familial thrombophilia: clinical and molecular analysis of Swedish families with inherited resistance to activated protein C or protein S deficiency. 898 66

Human plasma factor V is heterogeneous and yields two forms of activated factor V that bind with low (factor Va1) and high affinity (factor Va2) to phospholipids. The properties of factor Va1 and factor Va2 in the anticoagulant and procoagulant pathways were evaluated by comparing their sensitivity for inactivation by APC and their ability to act as cofactor in prothrombin activation. At low phospholipid concentrations and on membranes containing low amounts of phosphatidylserine (PS), factor Va1 was inactivated by APC at 15-fold lower rates than factor Va2, both in the absence and in the presence of protein S. At high phospholipid concentrations and on membranes with more than 15 mol % PS, factor Va1 and factor Va2 were inactivated with equal efficiency. Differences between cofactor activities of factor Va1 and factor Va2 in prothrombin activation were only observed on membranes with less than 7.5 mol % PS. Due to the different phospholipid requirements of APC-catalyzed factor Va inactivation and of expression of factor Va cofactor activity in prothrombin activation, the thrombin-forming capacity of factor V1 was 7-fold higher than that of factor V2 in a reaction system containing factor Xa, prothrombin, APC, protein S, vesicles with a phospholipid composition resembling that of activated platelets, and traces of thrombin to initiate prothrombin activation. This shows that in the process of generation, expression, and down-regulation of factor Va cofactor activity on physiological membranes, the overall procoagulant activity of factor V1 can considerably exceed that of factor V2.
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PMID:Human factor Va1 and factor Va2: properties in the procoagulant and anticoagulant pathways. 911 11

Blood coagulation factor V plays an important role in the regulation of thrombin formation. Activation of factor V by traces of activated coagulation factors (thrombin, factor Xa or meizothrombin) yields factor Va, the non-enzymatic cofactor of the prothrombinase complex. Since factor Va accelerates prothrombin activation under physiological conditions more than 10(4)-fold it is not surprising that down-regulation of factor Va cofactor activity by the protein C pathway is a very effective way for maintaining the hemostatic balance. In this paper we have reviewed the present status of structural knowledge of factor V and Va, the molecular changes in factor V that occur during factor V activation, the function of factor Va in prothrombin activation and the molecular mechanism of inactivation of factor Va by APC. Although considerable insight in the structure-function relationship of factor V and Va has been achieved, the study of mutated factor V molecules obtained by recombinant DNA technology will undoubtedly resolve remaining questions. The latter is illustrated by the fact that the discovery of factor VaLeiden has significantly contributed to our present knowledge on the regulation of the cofactor activity of factor Va via the protein C pathway. It appears that modulation of the activity of APC by protein S and factor Xa will strongly affect the in vivo activity of this pathway. Factor V not only plays an important role in the regulation of the activity of the prothrombinase complex but also acts as cofactor in APC-mediated inactivation of factor VIIIa. This gives rise to a rather intricate mechanism of regulation of thrombin formation by APC that thus far has been mainly studied in model systems containing purified proteins. Thus, extensive studies in plasma will be required in order to get more insight in the in vivo regulation of thrombin formation via the protein C pathway.
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PMID:Coagulation factor V: an old star shines again. 919 91

A dimorphism in the 3'-untranslated region of the prothrombin gene (G to A transition at position 20210) has recently been reported to be associated with increases in plasma prothrombin levels and in the risk of venous thrombosis. We have examined the prothrombin dimorphism among 99 unselected outpatients with phlebography verified deep venous thrombosis, and in 282 healthy controls. The prevalence of the 20210 A allele was 7.1% (7/99) in the patient group, and 1.8% (5/282) in the healthy control group (p = 0.0095). The relative risk of venous thrombosis was calculated to be 4.2 (95% CI, 1.3 to 13.6), and was still significant when adjustment was made for age, sex and the factor V:R506Q mutation causing APC resistance [odds ratio 3.8 (95% CI, 1.1 to 13.2)]. As previously reported, 28% of the patients were carriers of the factor V:R506Q mutation. Thus, 34% (one patient carried both traits) of unselected patients with deep venous thrombosis were carriers of an inherited prothrombotic disorder. To sum up, our results confirm the 20210 A allele of the prothrombin gene to be an important risk factor for venous thrombosis.
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PMID:The 20210 A allele of the prothrombin gene is a common risk factor among Swedish outpatients with verified deep venous thrombosis. 949 5

We studied 172 Greek patients (72 men aged 44.0 +/- 16.7 years and 100 women aged 46.5 +/- 14.1 years) with an unexplained thrombophilic tendency. One hundred and four apparently healthy persons (63 men aged 34.2 +/- 10.0 years and 41 women aged 37.1 +/- 13.3 years) were included as a control group. We performed the activated protein C resistance (APC-r) test using a clotting test (Chromogenix kit), detection of factor V Leiden using polymerase chain reaction (PCR)-restriction fragment length polymorphisms and measurement of thrombin-antithrombin complexes (TAT) and prothrombin fragment 1 + 2 (F1 + 2) levels with an immunoenzymatic assay. The normal range for the APC-r test (> 2.12) was determined from the controls. The factor V Leiden mutation was found in 31.9% of all the patients tested, in 28.1% of the unrelated patients with documented thrombophilic tendency of unknown origin and in 4.8% of the healthy controls. The APC-r test had a sensitivity of 0.42 and a specificity of 0.91 for the detection of factor V Leiden. Furthermore, we found no significant difference in levels of TAT and F1 + 2 between patients with and without the mutation and there was no correlation between aPC-r values and levels of TAT and F1 + 2.
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PMID:Factor V Leiden in Greek thrombophilic patients: relationship with activated protein C resistance test and levels of thrombin-antithrombin complex and prothrombin fragment 1 + 2. 949 Dec 65

Hypercoagulable states are a group of conditions associated with increased predisposition to thromboembolic events. Most of the inherited abnormalities recognized to date are associated with venous thromboembolism (VTE) rather than arterial thrombosis. The well-recognized inherited hypercoagulable states are the deficiencies of antithrombin, protein C and protein S, and the resistance to APC (factor V Leiden). These entities represent aberrations in the natural anticoagulant systems that exist in plasma. Other causes of inherited thrombophilia include abnormalities in the proteins of the fibrinolytic system, dysfibrinogenemias, deficiency of heparin cofactor II, abnormal thrombomodulin, elevated levels of histidine-rich glycoprotein, and the recently described variation in the prothrombin gene. One entity that has become firmly established as a predisposing factor for recurrent VTE is hyperhomocysteinemia. About half of VTE episodes in patients with inherited thrombophilias occur in relation to events that are generally recognized as predisposing states, such as surgery, pregnancy (particularly puerperium) and immobilization. In this review, the risks of VTE associated with inherited risk factors are discussed, and guidelines for the diagnosis and management are presented.
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PMID:Inherited hypercoagulable states. 957 5

The composition of antibodies against phospholipids (PLa) was analysed in 54 PLa-positive thrombophilic women, different in the factor V genotype (Arg506-Gln mutation carriers, n=23; and noncarriers, n=31). The presence of antibodies against prothrombin was also studied. The incidence of cardiolipin antibodies (CLa) and lupus anticoagulant (LA) activity was similar among the carriers and noncarriers, while phosphatidylserine antibodies (PSa) were often the only PLa detected in the carriers of the mutation (7/23 vs. 2/31; chi2=5.47, p<0.05). Antibodies against prothrombin were found in 11 of 54 patients. They segregated with PSa (8/19 vs. 3/35; chi2=8.54, p<0.025), but were equally distributed between carriers and noncarriers. The analysis of nAPC-ratio in patients with different PLa showed that it was consistently lower in the mutation carriers in whom none of the PLa caused further suppression. The noncarrier group positive for LA in several assays was associated with a reduction of nAPC-ratio (0.82+/-0.25 vs. 1.12+/-0.22, p<0.05). Our findings indicate that PLa contributing to the development of APC resistance are restricted to those possessing LA activity.
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PMID:Production of phospholipid antibodies in selected thrombophilic women differing in genotype at the 506 site of factor V. 968 88

The factor V (Arg506-->Gln) mutation confers an increased risk of deep vein thrombosis, whereas its role in saphenous vein graft closure after coronary artery bypass grafting (CABG) remains unclear. This study examined the anticoagulant response to activated protein C (APC ratio) in relation to the surgical trauma and the significance of the factor V Leiden mutation in determining postoperative thrombin generation and fibrin formation and the risk of early vein graft occlusion. A total of 108 men undergoing elective CABG for exertional angina pectoris (mean age 61.1 +/- 8.7 years) were examined. The patency of saphenous vein grafts was studied at routine reangiography three months after CABG. Of 100 patients who underwent reangiography, 23 had one or more occluded vein grafts at reangiography. Heterozygosity for the factor V (Arg506-->Gln) mutation tended to be associated with early saphenous vein graft occlusion (5/11 carriers vs. 18/89 non-carriers with graft occlusion, chi2 = 3.52, p = 0.06), whereas pre- and postoperative APC ratios did not. Pre- and postoperative determinations of prothrombin fragment 1+2, thrombin-antithrombin complexes and soluble fibrin levels did not differ between patients with and without the mutation. Early saphenous vein graft occlusion after CABG could tentatively be added to deep vein thrombosis as a vascular complication that can be attributed to the factor V (Arg506-->Gln) mutation.
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PMID:Coagulation factor V (Arg506-->Gln) mutation and early saphenous vein graft occlusion after coronary artery bypass grafting. 971 41

This population-based case-control study compared the effect of oral contraceptives (OCs) on hemostatic variables in venous thrombosis patients with the effect on healthy control subjects. A total of 99 premenopausal women aged 15-49 years, who had used OCs at the time of a first, objectively confirmed episode of deep-vein thrombosis, were studied. The median time between occurrence of deep-vein thrombosis and venepuncture was 18 months, and 30 of the 99 women were still using OCs, while 69 had discontinued OC use. In addition, a group of 153 control women (54 of them were OC users and 99 were nonusers) were also studied. The following hemostatic variables were measured: activated thromboplastin time (APTT), factor VII, factor VIII, factor XII, fibrinogen, prothrombin, total antithrombin, normalized activated protein C (n-APC-sr), protein C, protein S, and free protein S. Findings revealed significant effects of OC use on the levels of several clotting factors, with an increase in factors VII and XII and protein C and a decrease in antithrombin, n-APC-sr, and protein S. Less marked effects that were nonsignificant or only significant in either patients or controls were an increase in factor in VIII, fibrinogen, and prothrombin and a decrease in APTT and free protein S. Several of these effects of OCs were more pronounced in former thrombosis patients than in healthy women specifically on factor VII, antithrombin, n-APC-sr, and protein C. In conclusion, former deep-vein thrombosis patients are most vulnerable to the thrombogenic effects of OCs.
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PMID:Hemostatic effects of oral contraceptives in women who developed deep-vein thrombosis while using oral contraceptives. 975 14

Genetic defects of antithrombin (AT) or one of the components of the protein C pathway are associated with hereditary thrombophilia. Laboratory assays are currently available to diagnose and type hereditary thrombophilia due to deficiency or dysfunction of one of the anticoagulant factors antithrombin (AT), protein C (PC) and protein S (PS), and APC resistance without the need of DNA analysis. There are no functional tests for the prothrombin mutant G20210A and thrombomodulin mutations, which can be diagnosed by a PCR-based test or by gene analysis, respectively. Hereditary AT deficiency is classified in a quantitative type I and three functional type II deficiencies affecting the reactive site (RS), heparin binding site (HBS), or pleiomorphic site of the AT protein. All four types of hereditary AT deficiencies can be diagnosed by a heparin cofactor assay and one immune assay in combination with crossed immunoelectrophoresis of the AT protein. The combination of an enzyme-linked immunoadsorbent assay (ELISA) and a functional Protac-APTT-based assay for PC will detect quantitative type I and dysfunctional type II PC deficiencies. There is a significant overlap in PC antigen and functional levels between heterozygotes of PC deficiency and normals leaving a gray zone of uncertainty in differentiating congenital PC deficiency and normal individuals. Accurate diagnosis of hereditary PS deficiency should be a combination of tests aimed to measure free PS activity and antigen and total PS antigen levels. APTT-, Xa-, and RVVT-based APC-resistance tests, when test plasmas are diluted in factor V deficient plasma, have increased in sensitivity and specificity to 100% for the discrimination of normal individuals from heterozygotes and homozygotes for factor V Leiden. The RVVT-based APC-resistance test provides better separation of factor V Leiden and normals in the various clinical settings, lupus anticoagulant in particular. The modified APC-resistance tests also claim a separation between heterozygotes and homozygotes for factor V Leiden in the normal population, asymptomatic subjects, and thrombosis patients. Below a certain cut-off level, a minor overlap of normalized APC ratios between heterozygotes and homozygotes for factor V Leiden of thrombosis patients has been shown in one study, which still points to the need to perform the more time consuming and expensive DNA test to identify heterozygotes from the more clinically significant homozygotes. The prothrombin-based APC-resistance test, which measures thrombin activated factor Va in highly diluted test plasma, appears to be the most sensitive and specific of all APC-resistance tests and separates normal individuals from heterozygotes and heterozygotes from homozygotes for factor V Leiden without the need of confirmation by a DNA test.
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PMID:Laboratory diagnosis of hereditary thrombophilia. 976 48


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