Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P02749 (beta2-glycoprotein I)
 836 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Antiphospholipid' (aPL) antibodies are of important clinical significance because of their association with thrombosis both arterial and venous, recurrent foetal loss, specific neurological sequelae like seizures and chorea, cardiac valvular abnormalities and thrombocytopenia. Traditionally these autoantibodies have been assayed using phospholipid (PL) dependent tests and are classified as lupus anticoagulants (LA) and anticardiolipin (aCL) antibodies based on the method of detection. The antibodies thus, had been thought to bind PLs but it has now become clear that the true antigens are PL-binding proteins. The major protein consistently found as the target antigen for these autoantibodies is beta 2-glycoprotein I (beta 2-GPI). Other candidate PL-binding proteins have also been investigated including prothrombin, protein C and protein S but thus far appear to play less important roles in the binding of these antibodies.
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PMID:beta 2-Glycoprotein I: target antigen for autoantibodies in the 'antiphospholipid syndrome'. 890 65

The Antiphospholipid Syndrome is defined by the association between peculiar clinical manifestations, namely arterial and/or venous thrombosis, recurrent abortions and thrombocytopenia, and the antiphospholipid antibodies. These antibodies are directed to plasma proteins bound to anionic phospholipids or other anionic surfaces: so far, beta 2-glycoprotein I is the best known and characterized antiphospholipid 'cofactor' (this issue is specifically treated in other parts of this journal). In recent years, such a role has been reported also for prothrombin, activated Protein C, Protein S, Annexin V, Thrombomodulin, high- and low-molecular weight kininogens. Anti-prothrombin antibodies are detected in approximately 50% of the antiphospholipid-positive patients; conversely, limited data are available regarding the prevalence the other antibodies. 'Cofactors' are necessary for the expression of both the immunological and the functional properties of their respective antiphospholipid antibodies. In particular, the recognition of the calcium-mediated prothrombin/lipid complex by anti-prothrombin antibodies hampers prothrombin activation, thus causing the prolongation of the phospholipid-dependent coagulation reactions. The interaction between antiphospholipid antibodies and natural inhibitors of coagulation such as activated Protein C, its non-enzymatic accessory protein Protein S or Thrombomodulin might increase the risk to develop thromboembolic events. Similarly, the presence of antibodies to surface-bound Annexin V has been hypothesized to play a role in recurrent abortions and fetal deaths. However, to clearly establish whether and which antiphospholipid antibodies represent risk factors for the thromboembolic events of the antiphospholipid syndrome, further studies of their behaviour and properties as well as the identification and characterization of (possibly) other antibodies are required.
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PMID:Non beta 2-glycoprotein I cofactors for antiphospholipid antibodies. 890 67

Great progress has been made within the past 10 years in characterizing, assaying, and describing mechanism(s) of action in vitro of antiphospholipid antibodies (a-PL Abs); three prominent members are reagin, anticardiolipin antibodies (a-CL Abs), and the lupus anticoagulants (LAC). The major focus of this review is on basic and current biochemical and immunologic research. First, the biochemistry, structural composition, and sources of anionic and dipolar ionic (zwitterionic) phospholipids are discussed together with several serum antibodies directed to these phospholipids. Cardiolipin, the most acidic phospholipid (net negative charge of 2 at pH 7.0) has been historically important as an antigen for testing reagin in syphilis serology, and currently is part of the antigenic composition used in the Venereal Disease Research Laboratory (VDRL) tests. In this connection, the chronic biological false-positive test for syphilis and the LAC are discussed in association with autoimmune disorders such as systemic lupus erythematosus. Second, a naturally occurring plasma anticoagulant in vitro and a critical cofactor for binding of purified autoimmune a-CL Abs to cardiolipin is considered, the beta 2-glycoprotein I (beta 2-gpI). This single-chain plasma polypeptide is highly glycosylated, has 326 amino acids, a molecular weight of 50 kD, and is characterized by repeating amino acid motifs or domains that structurally resemble multiple loops. The highly cationic C-terminal fifth domain binds to anionic phospholipids. The beta 2-gpI is a member of the short consensus repeat superfamily of proteins, and is compared with other proteins with similar domains. Third, experiments are detailed for defining LAC and distinguishing it from other a-CL Abs. Cofactors are also associated with LAC and include beta 2-gpI, prothrombin, protein C, protein S, tissue factor, and factor XI. Thus, LAC antibodies are heterogeneous, and no individual assay can detect all LACs. Because patients with syphilis and other infectious diseases have no cofactor associated with a-CL Abs, their plasma LACs are negative. The a-CL Abs found in infection are not associated with the clinical features of the antiphospholipid syndrome. LAC assays are important because of the pathogenetic association with clinical observations of venous and arterial thrombosis, thrombocytopenia, and recurrent fetal loss. Finally, reports leading to development of currently used direct solid-phase enzyme-linked immunosorbent assays (ELISA) for testing a-PL Abs are outlined; these developments have greatly increased understanding of the basic immunology of target antigens and their respective antibodies. Of significance, a-CL Abs cross-react with other anionic phospholipids. Additionally, the results of these assays led to the realization that high levels of circulating a-PL Abs over long periods are associated with a number of clinical problems now known collectively as the antiphospholipid syndrome.
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PMID:Antiphospholipid antibodies: basic immunology and assays. 914 49

The antiphospholipid syndrome is defined as the association between the presence of antiphospholipid antibodies, detected as anticardiolipin antibodies and/or lupus anticoagulant, and a history of either arterial or venous thrombosis and/or recurrent pregnancy loss. Because thrombosis may occur in virtually any organ system, diagnosing the antiphospholipid syndrome and taking appropriate anticoagulation measures are important considerations in all medical specialties. Antiphospholipid antibody-associated thrombosis tends to recur. Antithrombotic prophylaxis to prevent recurrences is therefore needed. Prophylaxis in individuals with circulating antiphospholipid antibodies who have no history of thrombosis is still controversial. Although direct evidence for a pathogenetic role of antiphospholipid antibodies in the development of thrombosis is still lacking, recent studies suggest that it is causative rather than coincidental. New insights on the possible mechanisms leading to thrombosis were provided by the discovery of the serum cofactor (beta2-GPI), a coagulation inhibitor which is required for binding of anticardiolipin antibodies to cardiolipin. More recently, patients with antiphospholipid antibodies were found to possess autoantibodies directed against other coagulation factors, including prothrombin, protein C and protein S. Future studies should clarify whether these different antigenic specificities are associated with particular clinical events and assess the risk of thrombosis associated with the presence of antiphospholipid antibodies in asymptomatic individuals.
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PMID:The clinical significance of antiphospholipid antibodies. 918 33

Antiprothrombin and anti-beta2-glycoprotein I (beta2-GPI) antibodies belong to the family of antiphospholipid (APL) antibodies and represent the phospholipid-dependent inhibitors of coagulation. They may be distinguished by analyzing the coagulation profiles generated by the comparison of the ratios of two coagulation tests, the Kaolin Clotting Time (KCT) and the dilute Russell's Viper Venom Time (dRVVT), commonly adopted for their diagnosis. The KCT profile is caused by antiprothrombin antibodies, whereas anti-beta2-GPI antibodies are responsible for the dRVVT coagulation profile. The presence of aPL antibodies is frequently associated with acquired resistance to activated Protein C (APC-R), but limited information is available regarding the role of the different antibodies in its development. We studied the time-course of activated Factor V (FVa) generation and inactivation in the plasma of 42 patients with well-defined phospholipid-dependent inhibitors of coagulation: 24 displayed the dRVVT coagulation profile, whereas the other 18 cases showed the KCT profile. In normal pooled plasma, the peak values of FVa (mean +/- standard deviation, [SD]: 16.307 +/- 4.372 U/mL) were reached in 4 to 5 minutes and an almost complete inactivation (0.088 +/- 0.123 U/mL) was obtained within 20 minutes. At this time point, values of residual FVa exceeding 2 SD the mean of controls (0.344 U/mL) were considered abnormal. Patients belonging to the KCT coagulation profile group reached the maximal amount of FVa in plasma (22.740 +/- 7.693 U/mL, P = not significant v controls) within 4 to 5 minutes; at 20 minutes, the residual amount of FVa in plasma ranged from 0 to 1.09 U/mL (0.293 +/- 0.298; P = .027), but it was found abnormal in only six of the 18 cases. The time-course of FVa in plasma of patients belonging to the dRVVT coagulation profile group differed from that of normal controls in that the peak values (10.955 +/- 5.092 U/mL) were reached at 10 minutes and the amount of residual FVa at 20 minutes ranged from 0.320 to 14.450 U/ml (2.544 +/- 3.580 U/mL; P = .0191 v normal controls and P = . 0114 v KCT group patients). Twenty of the 24 patients belonging to the dRVVT profile group had an abnormal inactivation of FVa (chi2 = 0.001 v KCT group patients). History of venous thrombosis was experienced by 15 patients: an abnormal rate of FVa inactivation was found in 11 of them (73%) versus 15 of the 27 cases without thrombosis (56%) (x2 = 0.2556). The effect of affinity-purified IgG phospholipid-dependent inhibitors of coagulation on the time-course of FVa generation and inactivation in normal plasma was also investigated. Anti-beta2-GPI, but not antiprothrombin antibodies, hampered the inactivation of FVa by endogenous APC, thus reproducing the behavior of the original plasmas. This effect was strictly beta2-GPI-dependent. In conclusion, our findings confirm that anti-beta2-GPI antibodies identify patients with phospholipid-dependent inhibitors of coagulation at increased risk of thrombosis and suggest acquired APC-R as a possible explanation of the pathogenesis of the thromboembolic events.
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PMID:Differential effects of anti-beta2-glycoprotein I and antiprothrombin antibodies on the anticoagulant activity of activated protein C. 976 96

We investigated the role of the thrombin-activated platelet in modulating the rate and extent of activated protein C (APC)-catalyzed inactivation of platelet-derived factor Va and factor VaLeiden. Platelet-derived factor Va and factor VaLeiden were inactivated by APC at near identical rates; however, complete inactivation of the cofactors was never achieved. Greater residual cofactor activity remained when using thrombin-activated platelets compared with that observed with synthetic phospholipid vesicles and platelet-derived microparticles, suggesting that thrombin-activated platelets protect the cofactors from APC-catalyzed inactivation. This apparent protection was not due to (1) an insufficient number of membrane binding sites for APC or factor Va; (2) the destruction of these sites; or (3) the presence of a platelet-associated APC inhibitor. Results from a plasma-based clotting assay (with or without APC) with platelets or PCPS vesicles added to induce clot formation indicated that, even in the presence of high concentrations of APC, platelets offered protection of the cofactor by delaying cleavage at Arg506. This resulted in incomplete proteolysis of the heavy chain, suggesting that platelets can also protect plasma-derived factor Va from APC-catalyzed inactivation. However, additional experiments indicated that the plasma-derived cofactor, bound to thrombin-activated platelets, was completely inactivated by APC, suggesting that the plasma and platelet-derived cofactor pools represent different substrates for APC. Collectively, these results indicate that platelets sustain procoagulant events by providing a membrane surface that delays cofactor inactivation and by releasing a cofactor molecule that displays an APC resistant phenotype. Thus, at sites of arterial injury, the factor VLeiden mutation may not as readily predict arterial thrombosis, because the normal and variant platelet-derived cofactors are equally resistant to APC at the activated platelet surface.
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PMID:Platelet-derived factor Va/Va Leiden cofactor activities are sustained on the surface of activated platelets despite the presence of activated protein C. 953 92

A 65-year-old man had had arterial thromboses of the lower limbs and cerebral region for several years; tests revealed anticardiolipin, antiphosphatidylserine, anti-beta2-glycoprotein I antibodies, and lupus anticoagulant. As well, both phenotypic and genotypic resistance to activated protein C was found. Antiphospholipid antibodies have been reported to interfere in different ways with the functions of protein C; in our patient the simultaneous existence of inherited resistance to activated protein C could account for the thrombophilic status underlying the diffuse and serious arterial thromboses.
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PMID:Association of primary antiphospholipid syndrome with inherited activated protein C resistance. 963 93

It is known that antiphospholipid antibodies (aPL) hamper the anticoagulant activity of the protein C system, but the mechanism is still obscure. In this study, we demonstrate that anticardiolipin antibodies (not anti-protein C autoantibodies) can bind protein C via beta2-GPI, which bears their binding epitope, in a fashion dependent on negatively charged phospholipids. We studied the binding of IgG from aPL to protein C in the presence of beta2-GPI by ELISA (anti-'protein C' antibody ELISA), and compared their binding with those obtained in the absence of beta2-GPI. In the anti-'protein C' antibody ELISA system, 47% of 78 aPL+ patients had a positive titre in the presence of cardiolipin (CL) and beta2-GPI, but binding was not found in the absence of beta2-GPI. Highly significant correlations were found between the titre of anti-'protein C' antibody in the presence of beta2-GPI and that of anti-beta2-GPI antibody (r = 0.802, P = 0.0001). We further analysed the interaction between protein C, phospholipids, beta2-GPI and human aCL MoAbs established from patients with antiphospholipid syndrome. In a first set of experiments, the binding of beta2-GPI to protein C and its phospholipid dependency were investigated. Beta2-GPI bound to protein C in the presence of CL or phosphatidylserine, but not in the presence of phosphatidylcholine or phosphatidylethanolamine. In a second group of experiments, the binding of three human monoclonal aCL recognizing the cryptic epitope of beta2-GPI (virtually anti-beta2-GPI antibodies) was evaluated in the presence of cardiolipin and beta2-GPI. All three human monoclonal aCL bound to protein C in the presence of CL and beta2-GPI, whereas they did not in the absence of either beta2-GPI or CL. These data suggest that protein C could be a target of aCL by making a complex with CL and beta2-GPI, leading to protein C dysfunction.
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PMID:Binding of anticardiolipin antibodies to protein C via beta2-glycoprotein I (beta2-GPI): a possible mechanism in the inhibitory effect of antiphospholipid antibodies on the protein C system. 964 98

We describe the case of a 39-year-old woman who suffered two iliofemoral venous thromboses, a cerebral ischemic infarct and recurrent fetal loss. Initial studies showed high levels of antiphospholipid antibodies (APAs) and a moderate thrombocytopenia. After her second miscarriage, laboratory diagnosis revealed that the woman was heterozygous for the factor V Leiden mutation and had a functional protein S deficiency as well as anti-protein S and anti-beta 2-glycoprotein I antibodies. The impairment of the protein C pathway at various points could well explain the recurrent thromboses in the patient and supports the role of a disturbed protein C system in the pathophysiology of thrombosis in patients with APAs.
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PMID:Factor V Leiden and antibodies against phospholipids and protein S in a young woman with recurrent thromboses and abortion. 1009 95

The mechanism of thrombosis in patients with antiphospholipid syndrome is not clear. To investigate it, we examined the effect of monoclonal anticardiolipin (aCL) antibodies and beta2-glycoprotein I (beta2-GPI), which is required for formation of the aCL epitopes, on activated protein C (APC) and on fibrinolytic activity. First, APC activities were measured in the presence and absence of beta2-GPI or gamma M immunoglobulin (IgM) monoclonal aCLs (EY1C8 and EY2C9), or both, established from peripheral blood lymphocytes obtained from a patient with aCL. beta2-GPI exhibited a procoagulant activity by inhibiting APC activity as well as an anticoagulant activity by inhibiting thrombin generation. Any further inhibition of APC activity was caused by monoclonal aCL, and then only in the presence of beta2-GPI. The remaining tissue plasminogen activator (t-PA) of the sample consisting of beta2-GPI, two-chain recombinant t-PA, and plasminogen activator inhibitor (PAI)-1 was measured by a chromogenic assay using the synthetic substrate S-2251, Glu-plasminogen, and soluble fibrin monomer. beta2-GPI protected t-PA activity from inhibition by PAI-1. However, monoclonal aCLs (EY1C8 and EY2C9) inhibited the effect of beta2-GPI on fibrinolytic activity; that is, monoclonal aCLs inhibited fibrinolytic activity by elevating PAI-1 activity. Thrombosis in patients with aCL can be explained in part by both the inhibition of APC anticoagulant activity and the impairment of fibrinolytic activity by aCL.
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PMID:The putative mechanism of thrombosis in antiphospholipid syndrome: impairment of the protein C and the fibrinolytic systems by monoclonal anticardiolipin antibodies. 1062 10


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