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)

We have previously identified a group of blood donors with inherited deficiencies of either antithrombin (AT) or protein C who appear to have a relatively low thrombosis rate. In the 5 years that have elapsed since initial identification of these individuals, resistance to activated protein C (APC resistance), which is associated with the factor V Leiden gene mutation, has emerged as an important and highly prevalent inherited thrombophilic risk factor. We have followed 28 donors/relatives with deficiency of AT (median age 48 years, range 16-77) and 23 with deficiency of protein C (median age 44 years, range 15-79) over a period of 5 years. During the study period only one individual, who was previously symptomatic, has suffered a thrombotic event which occurred spontaneously whilst on warfarin. We have now excluded coinheritance of APC resistance due to the factor V Leiden mutation in our cohort. Our findings demonstrate that individuals with single inherited thrombophilic defects are not uncommon and are frequently asymptomatic. The absence of the factor V Leiden mutation may in part explain the low thrombosis rate observed, and lends support to the hypothesis that multiple thrombophilic defects may be necessary for the development of thrombosis.
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PMID:Low thrombosis rate seen in blood donors and their relatives with inherited deficiencies of antithrombin and protein C: correlation with type of defect, family history, and absence of the factor V Leiden mutation. 895 91

Oral contraceptives increase the natural incidence of venous thrombosis of 1-2/10,000 women per year 3- to 4-fold. Recent studies have shown that desogestrel or gestodene containing formulations bear twice the risk of older low-dose ovulation inhibitors. During pregnancy, the incidence of thrombosis rises to 10/10,000 women-years and post partum up to 40/ 10,000. For 60% of thromboses no causal explanation can be found. In approximately 40% of the patients an inherited thrombophilia can be presumed. Among the hereditary types of thrombophilia, a resistance to activated protein C (APC-resistance) represents nearly 50%, while in 15 to 20% a deficiency of antithrombin III, protein C or protein S is found. APC-resistance, with a prevalence of 3-5% in the general population, increases the risk of thrombosis 8-fold and in users of oral contraceptives 35-fold. Antithrombin III-deficiency carries a comparable risk. Protein C-deficiency increases the risk of thrombosis 9-fold and in users of oral contraceptives 15-fold. Ovulation inhibitors do not influence the risk of thrombosis in women with protein S-deficiency. Anti-phospholipid-antibodies increase during treatment with oral contraceptives and represent a considerably enhanced risk of thrombosis. Inherent thrombophilia is suspected in a patient with a positive history or family history of thrombosis, especially with thrombosis before the age of 40 or with atypical localisation. Even in these risk groups, the cost-benefit ratio of selective screening is unfavorable, as today at most 70% of the hereditary thrombophilias can be diagnosed by laboratory analysis, and only very few of the patients will actually experience a thrombotic event: only 3 of 1000 carriers of APC-resistance will suffer from thrombosis during oral contraception. On the other hand, a negative result of laboratory tests does not exclude a hereditary thrombophilic disorder. At present, it is unclear whether a selective screening process is superior to a careful assessment of individual and family history. A general screening, however, cannot be justified because of the unfavorable cost/benefit ratio. If the individual or family history or pathological laboratory parameters indicate an increased risk of thrombosis, this risk has to be carefully weighed against the consequences of discontinuation of pill use. Those few individuals with risk factors who will experience a thrombo-embolic event, cannot be identified in advance. If oral contraceptives represent a particularly high risk in patients with thrombophilic disorders and/or other risk factors, other contraceptive methods should be considered. If a patient with risk factors decides on the use of oral contraceptives, she must be informed that in the case of symptoms indicating a thrombosis, a physician should be consulted immediately. The earlier an appropriate therapy is initiated, the more effectively pulmonary thrombo-embolism and permanent damage, such as the post-phlebitic syndrome, can be prevented.
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PMID:[Risk of thrombosis with oral contraceptives: value of a thrombophilia screening test]. 896 51

The diagnostic strategies and clinical characteristics of thrombophilia associated with heterozygous or homozygous factor V Leiden mutation have been determined according to the literature and to a personal study in 51 families. Factor V mutation was present in the 51 propositi and in 84 out of 125 family members (81 heterozygous, 3 homozygous). Venous thrombosis was observed in all the propositi, in 17 of the 84 family members with the mutation and in 6 of the 41 with a normal APC resistance test and no mutation. An associated protein C or protein S deficiency was present in 5 families (10%). The most frequent clinical manifestations were superficial or deep vein thrombosis and/or pulmonary embolism, but also thrombosis at an unusual site (cerebral, mesenteric or central retinal vein). A causal relationship is frequently difficult to demonstrate. A precipitating factor was observed in 84% of cases and a recurrent thrombotic episode occurred in 50% of propositi. The risk of thrombosis associated with pregnancy was high in the post-partum period, especially in homozygous women. In the 28 homozygous subjects, markers of coagulation activation were frequently elevated in untreated patients. Finally, the efficacy of anticoagulant treatment is suggested but the long period often observed between treatment interruption and a recurrence does not militate in favour of long term treatment.
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PMID:Diagnosis and clinical characteristics of inherited activated protein C resistance. 897 37

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

Patients with a family history of thrombosis, early-onset or recurring thrombosis, thrombosis at unusual sites, or warfarin-induced skin necrosis should be investigated for a possible underlying inherited hypercoagulable disorder. These include AT-III deficiency, protein C and S deficiencies, and APC resistance. Many patients should also be evaluated for the antiphospholipid syndrome, an acquired disorder. Functional assays are more useful than immunologic assays for diagnosing AT-III deficiency, protein C and S deficiencies, and APC resistance. A molecular probe is now available for the abnormal factor V most often responsible for APC resistance. Testing for the antiphospholipid syndrome involves assays for the lupus anticoagulant and anticardiolipin antibodies. AT-III and protein C concentrates are now available for short-term therapy. Long-term prophylactic administration of warfarin may have to be considered for some symptomatic patients with proven abnormalities, especially after more than one thrombotic event. While the management of asymptomatic persons remains controversial, the use of prophylactic anticoagulation should be anticipated for trauma, surgery, pregnancy, or other high-risk situations.
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PMID:The hypercoagulable state. Who, how, and when to test and treat. 915 17

A chimeric cDNA, encoding residues 1-46 (the gamma-carboxyglutamic acid module and its trailing helical stack) of human coagulant factor (f) VII, bound to residues 47-419 of human anticoagulant protein C (PC), was constructed and expressed. The resulting protein, r-[delta GD-HSPC/[symbol: see text] GD-HSfVII]PC, was properly processed with regard to signal/propeptide release, cleavage of the K156R dipeptide, Gla and Hya contents, and the presence of glycosylation. The mutant protein displayed normal dependencies on Ca2+ for adoption of its metal ion-dependent conformation and for binding to acidic phospholipid vesicles. The chimera failed to recognize a monoclonal antibody (MAb) specific for the Ca(2+)-induced conformation of the Gla domain (GD) of PC, but did react with another MAb directed in part to the Ca(2+)-dependent conformation of the GD of fVII. Further, this chimeric protein possessed similar steady state constants as wild-type r-PC toward activation by thrombin and thrombin/thrombomodulin. The activated form of the chimera was very similar to that of its wild-type counterpart in its whole plasma anticoagulant activity, as well as its activity toward inactivation of coagulation factor VIII. The chimeric protein did not bind to the fVII cofactor, tissue factor, showing that the GD/HS domain region of fVII is insufficient for that particular interaction. The results demonstrate that the GD/HS of fVII, when present in the PC and APC background, serves to maintain the Ca2+/PL-related functions of these latter proteins, and suggest that the Ca2+ and PL-dependent interactions of the GD-HS of PC are sufficiently general in nature such that the GD-HS regions of other proteins of this type can satisfy most of the requirements of PC and APC. The data presented also offer support for the independent nature of the domain unit consisting of the GD/HS module.
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PMID:Properties of a recombinant chimeric protein in which the gamma-carboxyglutamic acid and helical stack domains of human anticoagulant protein C are replaced by those of human coagulation factor VII. 918 4

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

Protein C (PC) is the key component of a natural anticoagulant pathway that is activated on the surface of endothelial cells by thrombin bound to thrombomodulin. Activated protein C [APC] cleaves and inhibits membrane bound factor Va and factor VIIIa, which leads to specific and efficient downregulation of the coagulation pathway. In these reactions, protein S (PS) and intact factor V (FV) function as cofactors to APC. Inherited deficiencies of PC, PS, or antithrombin were until recently the major genetic causes of familial venous thrombophilia, but they were found in less than 5% to 10% of patients with thrombosis. The situation changed dramatically with the description in 1993 of resistance to APC as a major risk factor for venous thrombosis. Inherited APC resistance, which is found in 20% to 60% of patients with venous thrombosis, is caused by a single point mutation in the FV gene predicting substitution of arginine [R] at position 506 with a glutamine (Q). The mutation, which is the result of a founder effect, is common in Caucasians with 1% to 15% prevalence in the population, whereas it is not found in other human races. Mutated FV (FVR506Q, FV:Q506 or FV Leiden) has normal procoagulant properties but shows partial resistance to APC, which results in a hypercoagulable state conferring a lifelong increased risk of thrombosis. As a result of its high prevalence, the FV mutation is not uncommon among patients with other inherited defects such as deficiency of PS, PC, or antithrombin. Those having combined defects have a higher incidence of thrombosis, and it is now recognized that severe thrombophilia is a typical multigenetic disease. The high prevalence of the FVR506Q mutation and the availability of easy functional and genetic tests will profoundly influence the development of therapeutic and prophylactic regimens and will probably result in a decreased incidence of thromboembolic events.
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PMID:Resistance to activated protein C as risk factor for thrombosis: molecular mechanisms, laboratory investigation, and clinical management. 924 7

A 27 year old woman presented with recurrent cerebrovascular strokes in the setting of an ill defined auto-immune disease responsive to corticosteroid therapy. Investigation for a hypercoagulable state revealed activated protein C resistance in the absence of protein C, protein S, or antithrombin III deficiency or anticardiolipin antibodies. Her parents and sibling did not demonstrate APC resistance. This case suggests that activated protein C resistance may be associated with arterial as well as venous thrombotic events and implies that resistance to activated protein C should also be considered in the evaluation of young adults with strokes.
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PMID:Resistance to activated protein C: arterial thrombosis associated with autoimmune features. 926 89

We studied the prevalence of antithrombin III (AT III), protein C (PC) and protein S (PS) deficiencies and factor V Leiden mutation in thrombophilia in Taiwan. Eighty-five consecutive and unrelated patients with otherwise unexplained venous thrombophilia were studied. Both antigen and activity of inhibitors were determined using commercial kits (Stago), activated PC sensitivity ratio (APC SR) by Coatest (Chromogenix), and factor V mutation by polymerase chain reaction with sequence specific primer. Of 85 patients, 41 were male, 44 female, and mean age 49.4 years (17-82 years). None had factor V mutation, or APC SR of less than 2; 50 (58.8%) showed a deficiency of inhibitor proteins; 34 (68.0%) were hereditary, 16 (32.0%) non-hereditary; 3 had an AT III deficiency, 16 a PC deficiency, 28 a PS deficiency, and 3 a combined deficiency. Thirty-five were non-deficient without a known cause. The average age at the first thrombotic episode was 48.5 years (13-81 years). Thrombosis occurred spontaneously in 39 (78.0%) of 50 deficient patients. In conclusion, a relatively higher prevalence of AT III, PC and PS deficiency (59%), but no factor V Leiden mutation, was found in venous thrombophilic Chinese patients in Taiwan compared to that in western countries. Screening for inhibitor protein deficiency in Chinese thrombophilic patients is highly recommended.
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PMID:High prevalence of antithrombin III, protein C and protein S deficiency, but no factor V Leiden mutation in venous thrombophilic Chinese patients in Taiwan. 927 15


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