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 antibodies are well recognized as associated with serious clinical complications such as arterial and venous thrombosis and recurrent spontaneous abortion. These complications are collectively called antiphospholipid syndrome(APS). The mechanisms responsible for the thrombosis are unclear. We reported three mechanisms. beta 2-glycoprotein I(beta 2GPI) inhibited activated protein C(APC) activity and, furthermore, APC activity decreased by the addition of monoclonal aCL and beta 2GPI. Monoclonal anticardiolipin antibodies(aCL) seemed to enhance the inhibition of APC procoagulant activity caused by beta 2GPI. Monoclonal aCL in the presence of beta 2GPI also increased the activity of plasminogen activator inhibitor(PAI)-1 in the mixture of tissue-plasminogen activator(t-PA) and PAI-1 by inhibiting the function of beta 2GPI, which increased the remaining t-PA activity in the mixture. The formation of thrombin-antithrombin complexes(TAT) in APS was impaired. The level of TAT in APS did not increase, however the level of prothrombin fragment 1 + 2 (F1 + 2) increased. Therefore, free thrombin present in patients' blood may contribute to thrombosis in APS. These reports indicate that thrombosis in APS may be caused by several thrombogenic factors that stimulate aCL.
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PMID:[Antiphospholipid antibodies and thrombosis: the putative mechanisms of hypercoagulable state in patients with anticardiolipin antibody]. 1081 Aug 73

The antiphospholipid syndrome(APS) is characterized by predominant clinical features of venous and arterial thrombosis and recurrent pregnancy loss accompanied by antiphospholipid antibodies(aPL) such as anticardiolipin antibodies(aCL) and lupus anticoagulant(LA). In 1990, three individual research groups, including us, first reported that a 50 kD plasma cofactor is required for the binding of aCL to cardiolipin(CL) and now, beta 2-glycoprotein I(beta 2-GPI), which binds to anionic phospholipids(PLs), is widely believed to be the major antigen for aCL. It was also reported that epitopes for such aCL are cryptic and that they appear only when beta 2-GPI interacts with lipid membranes containing anionic PLs, such as CL and phosphatidylserine, or with a polyoxygenated polystyrene surface. In contrast, prothrombin was recently identified as the "true" antigen for LA. In this review paper, we would like to describe on specificity of aPL and also on a possible mechanism on autoantibody-dependent development of atherosclerosis.
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PMID:[Assay principles of antiphospholipid antibodies and heterogeneity of the antibodies]. 1081 Aug 76

We examined the role of autoantibodies to beta2-GPI and prothrombin (PT) in the inhibition of annexin V binding to cardiolipin (CL) and the association with clinical manifestations of the anti-phospholipid syndrome (APS). Plasma samples from 59 patients with anti-phospholipid (aPL) antibodies were studied. Affinity purification of total IgG and IgG anti-ss2-GPI antibodies was performed using staphylococcal protein A and phospholipid liposomes. Annexin V binding to CL was significantly inhibited by 31/59 (53%) aPL+ plasma samples. There was a significant association between annexin V inhibition and elevated levels of IgG anti-cardiolipin (aCL) (r = -0.62; P < 0.001), IgG anti-ss2-GPI (r = -0.67; P < 0. 001) and a weaker association with lupus anti-coagulant (r = -0.27; P = 0.05). There was no association with other isotypes of aCL and anti-ss2-GPI or with anti-PT of any isotype. In patients with clinical manifestations of the APS there were higher levels of IgG aCL (median (range) Z score): 10.0 (0-17.6) versus 5.0 (0-16.1); P = 0.03), IgG anti-ss2-GPI (4.5 (0-11.3) versus 0.9 (0-9.7); P = 0.02) and greater inhibition of annexin V binding to CL (-3.4 (-11.4-0.6) versus -1.1 (-10.8-1.2); P = 0.22). Odds ratios for the laboratory assays and the presence of clinical manifestations of the APS varied between 0.38 and 4.16, with the highest values for IgG aCL (4.16), IgG anti-ss2-GPI (3.28) and annexin V inhibition (2.85). Additional experiments with affinity-purified IgG antibodies indicated that inhibition of annexin V binding was dependent upon the concentration of ss2-GPI and anti-ss2-GPI antibodies. These results indicate that inhibition of annexin V binding to procoagulant phospholipid surfaces is dependent upon anti-ss2-GPI antibodies and suggest a role for annexin V in the pathogenesis of the APS.
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PMID:Anti-beta2-glycoprotein I (GPI) autoantibodies, annexin V binding and the anti-phospholipid syndrome. 1084 35

The clinically relevant antiphospholipid antibodies (APA) include anticardiolipin antibodies and lupus anticoagulant. Most autoimmune APA require the presence of a cofactor for phospholipid binding, and the growing list of candidate cofactors has prompted redefinition of APA to 'antiphospholipid protein antibodies'. Current evidence favours beta2-glycoprotein I (beta2GPI) and prothrombin as the primary antigens for anticardiolipin antibodies and lupus anticoagulant respectively. Patients with APA show a predisposition for venous and arterial thromboembolism, recurrent fetal loss, thrombocytopenia and a number of neurological syndromes and miscellaneous conditions. The association between APA and thrombosis has been well documented, but a definite mechanism remains to be clarified. Proposed mechanisms have included disruption of endothelial regulatory processes, impairment of fibrinolysis, augmented platelet activation and/or adhesion, inhibition of antithrombin activity and negation of the anticoagulant effects of beta2GPI and annexin V. In this review we describe recent insights into the role of beta2GPI as a natural anticoagulant, the procoagulant effects of APA on the Protein C system, the interactions between APA and prothrombin resulting in augmentation of thrombin generation, and cellular expression of Tissue Factor in patients with APA. Cellular immunity to beta2GPI is also discussed. Elucidation of these pathophysiological mechanisms may shed further light on the association between APA and thrombosis.
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PMID:Recent insights into antiphospholipid antibody-mediated thrombosis. 1085 78

In addition to their role in the thrombotic manifestations of the antiphospholipid syndrome (APS), autoimmune antiphospholipid (aPL) antibodies may also be responsible for direct injury to the blood vessel wall, although the mechanism is unclear. Cryoglobulinemia has been reported infrequently in patients with APS and is one potential means of blood vessel injury. The aim of the present study was to determine if autoimmune aPL antibodies and their target antigens contribute to the formation of cryoprecipitates. Cryoglobulins were identified and isolated from 5 of 8 patients with autoimmune aPL antibodies. Using identical concentrations of immunoglobulins isolated from matched sera and washed cryoprecipitates there was a significant enrichment (at least 100%) of aCL antibodies in the cryoprecipitates from 4 of 5 patients. This involved IgG, IgM and IgA isotypes with specificity for both beta2-glycoprotein I (GPI) and prothrombin (PT). The target antigens were detected in cryoprecipitates from all 5 aPL positive patients and in cryoprecipitates from 3 controls. These results suggest that anti-beta2-GPI and anti-PT antibodies in association with their target antigens are integrally involved in the formation of cryoprecipitates in patients with autoimmune aPL antibodies and provide insight into a potential mechanism for blood vessel injury.
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PMID:Autoimmune antiphospholipid antibodies and cryoglobulinemia. 1086 97

Elucidation of the antibodies and antigens involved in the antiphospholipid syndrome has provided many new insights and research opportunities. The major autoantibodies associated with the syndrome and detected in clinical laboratory assays for antiphospholipid antibodies are directed against prothrombin and beta2-glycoprotein I beta2GPI), a phospholipid-binding plasma protein whose physiological function is unknown. Recent advances in our understanding of these antibodies and antigens include discovery of the crystal structure of beta2GPI, identification of a plasmin cleavage site in beta2GPI, genetic studies of beta2GPI polymorphisms, development of clinical laboratory assays using purified protein antigens, and the identification of antigen specific T cells.
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PMID:Antiphospholipid syndrome: antibodies and antigens. 1096 83

The diagnosis of antiphospholipid syndrome (APS) requires the presence of both clinical and biological features. Due to the heterogeneity of anti-phospholipid antibodies (aPL) the laboratory approach for their detection includes clotting-based tests for lupus anticoagulant (LA) as well as solid-phase assays for anticardiolipin antibodies (aCL). In addition, as it has been shown that autoimmune aPL recognize epitopes on phospholipid (PL)-binding plasma proteins, assays detecting antibodies to beta 2-glycoprotein I (beta 2-GPI) or prothrombin have been developed. The association between venous or arterial thrombosis and recurrent fetal loss with the presence of conventional aPL (LA and/or aCL) has been confirmed by many studies. The LA and IgG aCL at moderate/high titre seem to exhibit the strongest association with clinical manifestations of the APS. Several reports indicate that LA is less sensitive but more specific than aCL for the APS. Assays against PLs other than CL as well as the use of mixtures of PLs have been proposed to improve the detection of APS-related aPL. Concerning antibodies to PL-binding proteins (detected in the absence of PLs), there is evidence that anti-beta 2-GPI are closely associated with thrombosis and other clinical features of the APS. Moreover, these antibodies may be more specific in the recognition of the APS and in some cases may be present in the absence of aPL detected by standard tests. Many issues are still under debate and are discussed in this review, such as the problems of standardization of anti-beta 2-GPI assays, detection of the IgA isotype of aCL and anti-beta 2-GPI, the coagulation profiles of LA in the recognition of the thrombotic risk and the association of particular markers with subsets of patients with APS.
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PMID:Which are the best biological markers of the antiphospholipid syndrome? 1096 4

The antiphospholipid syndrome (APS) is defined as the association of antiphospholipid antibodies (aPL) with arterial or venous thrombosis, recurrent fetal loss, thrombocytopenia or neurologic disorders. Some aPL can be detected via phospholipid dependent coagulation assays where they present as an aspecific coagulation inhibitor termed the lupus anticoagulant (LA). Other antibodies can be measured via immunological assays mostly via their capability to bind to immobilised cardiolipin and are therefore called anticardiolipin antibodies (aCL). Affinity purification of aCL led to the discovery that, in contrast to what the term antiphospholipid antibody could suggest, these autoimmune antibodies do not bind to negatively charged phospholipids per se but to beta-2-glycoprotein I (beta 2GPI), a phospholipid-binding protein eventually bound to phospholipid surfaces. LAs have been found to be directed towards either prothrombin or beta 2GPI bound to anionic phospholipids. Whereas clinical and animal experimental data clearly suggest a role for beta 2GPI-dependent aPL in the development of the APS, the pathogenic mechanism is not known. Interferences with several phospholipid dependent anticoagulant pathways have been proposed but none of these has received general acceptance. Based on clinical and experimental similarities with heparin-induced thrombocytopenia, another syndrome of antibody mediated thrombosis, we proposed a model of prothrombotic cellular activation. This model, although supported by a number of experimental observations, does not provide a direct explanation for the recent observation that LA are more strongly associated with thrombosis than aCL. In order to study this, we raised murine monoclonal antibodies (moab) against human beta 2GPI. These antibodies, of which some had LA activities and others not, enabled us to study the interaction between beta 2GPI, antibody and phospholipids. In contrast to what was generally accepted, beta 2GPI appeared to have only low affinity for coagulation promoting phospholipids. In the presence of LA positive anti-beta 2GPI moabs, the affinity of beta 2GPI for phospholipids increased significantly. This appeared to be dependent on the formation of bivalent beta 2GPI-antibody complexes on the phospholipid surface. It is conceivable that such bivalent complexes also remain tightly attached to membranes of activated cells enabling further thrombosis promoting activation via Fc receptor interaction or the complement system, a hypothesis that is currently being investigated. Further studies also showed that our LA positive anti-beta 2GPI moabs have a potential for the production of LA control specimens, that could be made available to routine hemostasis laboratories to assess intra-laboratory precision of LA testing, to manufacturers to produce highly sensitive assay systems and to control batch-to-batch variability of their reagents and to organizations involved in external quality assessment. In conclusion this work has enabled us to understand the molecular mechanism by which certain autoimmune antibodies found in patients with APS prolong coagulation assays in vitro. The antibodies generated are an important tool to improve the laboratory diagnosis of the lupus anticoagulant and may help us clarify the pathogenic role of autoimmune anti-beta 2GPI antibodies.
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PMID:The role of beta 2-glycoprotein I-dependent lupus anticoagulants in the pathogenesis of the antiphospholipid syndrome. 1114 85

The dilute Russell's viper venom time (dRVVT) and the kaolin clotting time (KCT) are two among the most commonly used coagulation tests for the detection of lupus anticoagulants. The dRVVT seems superior to the KCT in identifying LA-positive patients at risk of thrombosis. However, this relationship is greatly influenced by both the source of reagents and the instrumentation employed to carry out the assays. Therefore, 4 dRVVTs ("home-made" dRVVT, DVV test, Bioclot LA, LA Screen), and one KCT (Kaoclot) were performed in two centers and compared for their retrospective correlation with the thrombotic complications of 72 patients with a previously established diagnosis of lupus anticoagulants. Two other assays ("home-made" KCT, and Colloidal Silica Clotting Time, CSCT) were performed in one of the two centers, and compared with Kaoclot for their clinical correlations in the same population of patients, 44 of whom (61%) had suffered from arterial and/or venous thrombosis. A rather good degree of inter-laboratory and inter-assay correlations of the different tests was found. However, a statistically significant association with thrombosis was found only with the coagulation profile generated using the "home-made" dRVVT. When the commercially available dRVVTs were used, none of the coagulation profiles remained associated with thrombosis. When the assays were analyzed separately, the association with thrombosis was statistically significant for LA screen (p = 0.0019), DVV test (p = 0.0043), and Bioclot (p = 0.0255), and of borderline significance for the "home-made" dRVVT (p = 0.0503) in one center. This last assay was also significantly associated with thrombosis in the other center (p = 0.0139). When venous and arterial thrombosis were considered separately, DVV test was statistically associated with venous thrombosis in both centers (p = 0.0076 and p = 0.0187, respectively), and LA screen in one center (p = 0.0303). No dRVVT was found to correlate with arterial thrombosis. Kaoclot, Colloidal Silica Clotting Time, and the "home-made" KCT did not correlate with thrombosis. The prevalence of IgG and/or IgM antibodies to cardiolipin, beta2-glycoprotein I and prothrombin were 74%, 86% and 85%, respectively. Increased titers of IgG anticardiolipin antibodies were associated with arterial thrombosis (p = 0.0375), whereas IgM anti-beta2-glycoprotein I antibodies were associated with venous thrombosis (p = 0.0433). In conclusion, these retrospective data support the notion that the dRVVT, rather than other coagulation or ELISA tests, are able to identify lupus anticoagulant-positive patients at risk of thrombosis. This property appears common to several commercially available dRVVT kits, making this type of assay the ideal target of future efforts of laboratory standardization.
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PMID:Lupus anticoagulants and thrombosis: clinical association of different coagulation and immunologic tests. 1115 7

Antibodies to prothrombin have been associated with venous and arterial thrombosis, and they cross-react with a structurally closely related protein plasminogen. We immunised 16 mice with human prothrombin and 15 mice with human plasminogen. Mice immunised with prothrombin developed cross-reactive antibodies to plasminogen (12/16), beta2-glycoprotein I (4/16), tissue-type plasminogen activator (6/16) and cardiolipin (11/16). Mice immunised with plasminogen developed cross-reactive antibodies to prothrombin (8/15), tissue-type plasminogen activator (2/12) and cardiolipin (5/12). Functional effects of antibodies were examined. Immunisation with prothrombin induced lupus anticoagulant activity in 9/14 mice. In mice immunised with plasminogen, radial fibrinolysis was inhibited in 8/10 and plasminogen activation in the chromogenic assay was inhibited in 9/11. No cross-functionality was observed. In conclusion, antibodies to prothrombin and plasminogen cross-react in vivo. Antibodies to prothrombin and plasminogen have different functional profiles, immunisation with prothrombin leads to prolonged blood clotting time, and immunisation with plasminogen induces antibodies interfering with fibrinolysis.
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PMID:Immunologic and hematologic properties of antibodies to prothrombin and plasminogen in a mouse model. 1123 22


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