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: UNIPROT:P02749 (beta2-glycoprotein I)
836 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cerebral infarction is the most common arterial thromboembolic complication in the anti-phospholipid antibodies (aPL) syndrome. In an effort to clarify the roles of aPL in the pathogenesis of cerebral infarction in patients with SLE, we examined the levels of anti-cardiolipin/2-glycoprotein I antibodies (anti-CL/beta2-GPI) and anti-phosphatidylserine/prothrombin anti-bodies (anti-PS/PT) in addition to lupus anticoagulant (LA) activity in 126 patients with SLE (35 with cerebral infarction and 91 without thrombosis). Both anti-CL/beta2-GPI and anti-PS/PT strongly correlated with the presence of LA activity. The prevalence of cerebral infarction was obviously higher in the patients who had both anti-CL/beta2-GPI and anti-PS/PT (76.5% [26/34 cases], p<0.0001) than in the other patients having anti-CL/beta2-GPI or anti-PS/PT alone or neither of them (9.8% [9/92 cases]). Furthermore, we studied the in vitro effects of anti-CL/beta2-GPI and/or anti-PS/PT on the enhancement of platelet activation induced by stimulation with a low concentration of adenosine diphosphate (ADP). The purified IgG containing both anti-CL/beta2-GPI and anti-PS/PT caused significant enhancement of platelet activation caused by ADP. However, the purified IgG containing either anti-CL/beta2-GPI or anti-PS/PT had no enhancing effects on it. Furthermore, platelet activation was generated by the mixture of anti-CL/beta2-GPI-IgG and anti-PS/PT-IgG prepared from individual patients, but not by each fraction alone. These results indicate that anti-CL/beta2-GPI and anti-PS/PT may cooperate to promote platelet activation, which may contribute to the risk of cerebral infarction in patients with SLE.
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PMID:Strong correlation between the prevalence of cerebral infarction and the presence of anti-cardiolipin/beta2-glycoprotein I and anti-phosphatidylserine/prothrombin antibodies--Co-existence of these antibodies enhances ADP-induced platelet activation in vitro. 1511 58

Antiphospholipid syndrome is considered to be a cause of an acquired hypercoagulable state leading to stroke and transient ischemic attack. Antiphospholipid antibodies (aPL) comprise a heterogeneous group of autoantibodies. Among them, lupus anticoagulant (LA) and beta 2-glycoprotein I dependent anticardiolipin antibody (beta 2-GPI aCL) are important and commonly measured. Recently, LA has been considered to be closely related to phosphatidylserine anti-prothrombin antibody. APL is an independent risk factor for first-ever ischemic stroke and a prognostic marker of recurrent stroke. The precipitating factors for the occurrence of stroke are the presence of beta 2-GPI-dependent aCL, a GPL aCL level of more than 40, and the simultaneous presence of lupus anticoagulant. Several mechanisms are believed to be involved in the thrombotic process in patients with antiphospholipid antibodies. Human activated protein C functions as a potent anticoagulant in human plasma by inhibiting the activity of coagulation cofactors Va and VIIIa. Activation of protein C is impaired in patients with aPL. Recently, the presence of aPL has been considered to be contributory factor for the development of atherosclerotic lesions. Transgenic mouse lacking the LDL receptor develop accelerated arteriosclerosis upon immunization with beta 2-GPL Several therapeutic options are available for the prevention of ischemic stroke in patients with aPL, such as antiplatelet, anticoagulant, and immunosuppressive therapy. The rate of recurrence in patients undergoing antiplatelet and anticoagulation combination therapy was found to be lower than that in patients receiving other forms of therapy. The WARSS-APASS collaborative study showed that there was no difference in the recurrence rate between aPL patients receiving antiplatelet or anticoagulation therapy alone. APL has been investigated in other neurological disorders such as multiple sclerosis, chorea, migraine and convulsion. The association of aPL with multiple sclerosis remains debatable. APL could be a contributory factor for the development of convulsion, but not for migraine.
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PMID:[Neurological aspects in antiphospholipid syndrome]. 1515 54

Antiphospholipid antibodies (APLA) present very heterogeneous groups of antibodies which can significantly influence processes on different levels of coagulation cascade depending on effects of phospholipid surfaces on blood coagulation. This usually leads to a particular level of thrombophylia. Clinical syndrome accompanying positive APLA, such as antiphospholipid syndrome, was defined by clinical and laboratory symptoms. This clinical syndrome can be a primary syndrome, if other disorders with ability to induce generation of antibodies can be excluded, or a secondary syndrome. The most often in cases of systemic tissue disease. APLA can be divided according to the presence of lupus anticoagulant and anticardiolipin antibodies. According to a definition lupus anticoagulants are antibodies able to inhibit and prolong in vitro one or more blood clotting processes dependent on phospholipid surfaces. Anticardiolipin antibodies are antibodies measured by ELISA method with cardiolipin used as an antibody. Findings show that some APLA are directed against proteins bound to phospholipid surfaces. Main cofactor proteins include beta 2-GPI and prothrombin. Because of their heterogeneous specificity, APLA are directed against negative phospholipids or proteins bound to phospholipid surfaces and have important pathophysiology role in development of antiphospholipid syndrome.
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PMID:[The significance of antiphospholipid antibodies]. 1521 91

In the last decennium, it became clear that antiphospholipid antibodies found in patients with antiphospholipid syndrome (APS) are in fact antibodies against lipid-bound plasma proteins. The most frequently occurring antigens are beta2-glycoprotein I and prothrombin, although several other lipid-bound plasma proteins have been reported as antigen for antiphospholipid antibodies. Both proteins bind to anionic phospholipids, mainly phosphatidylserine, which becomes exposed at the surface of activated platelets, apoptotic cells, or cell-derived microparticles. The binding of beta2-glycoprotein I and prothrombin to these cell surfaces or to artificial lipid vesicles with comparable amounts of anionic phospholipids is rather weak. Antiphospholipid antibodies from patients are predominantly of low affinity regarding their interaction with beta2-glycoprotein I or prothrombin in solution. In the presence of a suitable phospholipid surface, however, this interaction is strongly enhanced. There is now strong evidence that formation of bivalent, trimolecular immune complexes at the lipid membrane essentially contributes to the binding of these intrinsically low affinity patient antibodies. Depending on the affinity, the epitope specificity, and the polyclonality of a particular IgG preparation, multimeric structures of lipid-bound immune complexes may form a lattice with multiple interactions on the lipid (cell) surface. It is hypothesized that the functional activity, that is, the ability of antibodies to interfere with lipid-dependent reactions, not only depends on their affinity for the antigen, but also on their ability to form multiple interconnected bivalent trimolecular complexes at the lipid (or cell) surface. It is further proposed that the rate of desorption of immune complexes may present a better indicator for the functional properties of the antibodies than the amount of adsorbed immune complexes.
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PMID:The effect of phospholipids on the formation of immune complexes between autoantibodies and beta2-glycoprotein I or prothrombin. 1524 Jan 58

The natural targets of anti-phospholipid antibodies (aPL) and the stimuli that induce them remain unknown. Apoptotic cells have been proposed as both potential targets and immunogens for anti-phospholipid antibodies. Demonstration of selective recognition by anti-phospholipid antibodies provides support for apoptotic cells as antigenic targets. Here, we summarize data showing that prothrombin (PT) binds to apoptotic, but not viable, cells, and that apoptotic-cell bound prothrombin provides a target for human polyclonal and murine monoclonal lupus anticoagulant (LA) antibodies. We discuss findings for two monoclonal lupus anticoagulant antibodies that have high (antibody 29J3-62) or low (antibody 29I4-24) affinity, respectively, for soluble prothrombin. Despite their very different affinities for soluble prothrombin, both monoclonal antibodies reacted similarly with prothrombin bound to phospholipid or apoptotic cells. Furthermore, both antibodies enhanced the binding of prothrombin to apoptotic cells. We propose that the recognition of apoptotic cells by these prothrombin-dependent monoclonal antibodies provides a paradigm for other anti-phospholipid autoantibodies. 29I4-24 is prototypical of phospholipid-dependent anti-phospholipid antibodies, while 29J3-62 represents a prototype for phospholipid-independent anti-phospholipid antibodies. Proteins such as prothrombin and beta2-glycoprotein I (beta2GPI) bind to apoptotic cells, thereby enhancing the recognition of apoptotic cells by anti-phospholipid antibodies. Furthermore, anti-phospholipid antibodies potentiate the interaction of these proteins with apoptotic cells. While it is unclear whether apoptotic cells are the inducing stimuli in patients with anti-phospholipid antibodies or even whether anti-phospholipid antibodies interact with apoptotic cells in vivo, it is nonetheless clear that anti-phospholipid antibodies have the potential to affect both the procoagulant activity and the uptake and clearance of apoptotic cells.
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PMID:Anti-phospholipid antibodies (aPL) and apoptosis: prothrombin-dependent aPL as a paradigm for phospholipid-dependent interactions with apoptotic cells. 1550 67

According to the preliminary classification criteria of the antiphospholipid syndrome (APS) (Sapporo Criteria), beta2-glycoprotein I (beta2GPI)-dependent anticardiolipin antibodies (aCL) and lupus anticoagulant (LA) are the only laboratory tests considered as criteria for the classification of the APS. Recently, antibodies against phosphatidylserine-prothrombin complex (aPS/PT) have been detected and these antibodies, rather than antibodies against prothrombin alone, are closely associated with APS and LA. We assessed the sensitivity and specificity of aPS/PT for the diagnosis of APS in our population of patients with a variety of autoimmune disorders and investigated whether aPS/PT could be used as diagnostic test in patients suspected of having APS. The study population comprised 219 patients with autoimmune diseases including 82 patients with APS and 137 without APS (55 systemic lupus erythematosus, 32 rheumatoid arthritis, 10 primary Sjogren's syndrome, 8 scleroderma, 5 Behcet's disease and 27 other rheumatic diseases). IgG/M aPS/PT were measured by ELISA using phosphatidylserine-prothrombin complex as antigen immobilized on ELISA plates in the presence of CaCl2. IgG/M aCL were measured by standard methods and LA was detected by clotting assays. aPS/PT, aCL and LA were more frequently found in patients with APS (47, 46 and 69, respectively) than in those without APS (11, 19 and 29, respectively) (OR 95% [CI]; 15.4 [7.2-32.7], 7.9 [4.1-15.2, 19.8 [9.6-40.6], respectively]. The sensitivity of each assay for the diagnosis of APS was 57%, 56% and 86% with a specificity of 92%, 86% and 79%, respectively. aPS/PT and aCL have similar diagnostic value for APS, therefore, we propose that aPS/PT should be further explored, not only for research purposes, but also as a candidate of one of the laboratory criteria for the classification of the APS.
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PMID:Antiprothrombin antibodies--are they worth assaying? 1550 88

The plasma protein beta2GPI (beta2-glycoprotein I) has been proposed to mediate phagocytosis of apoptotic cells and to play a role in the antiphospholipid syndrome. This suggestion is based mainly on the presumption that beta2GPI has an appreciable interaction with PS (phosphatidylserine)-exposing cell membranes. However, quantitative data on the binding of beta2GPI to PS-exposing cells under physiologically relevant conditions are scarce and conflicting. Therefore we evaluated the binding of beta2GPI to PS-expressing blood platelets. Flow cytometry showed that binding of beta2GPI is negligible at physiological ionic strength, in contrast with significant binding occurring at low ionic strength. Binding parameters of beta2GPI and (for comparison) prothrombin were quantified by ellipsometric measurement of protein depletion from the supernatant following incubation with platelets. At low ionic strength (20 mM NaCl, no CaCl2), a dissociation constant (K(d)) of 0.2 microM was found for beta2GPI, with 7.4x10(5) binding sites per platelet. Under physiologically relevant conditions (120 mM NaCl and 3 mM CaCl2), binding of beta2GPI was not detectable (extrapolated K(d)>80 microM). Prothrombin binding (at 3 mM CaCl2) was much less affected by ionic strength: K(d) values of 0.5 and 1.4 muM were observed at 20 and 120 mM NaCl respectively. The low affinity and the presence of many lipid-binding proteins in plasma that can compete with the binding of beta2GPI suggest that only a small fraction (<5%) of the binding sites on PS-exposing blood cells are likely to be occupied by beta2GPI. These findings are discussed in relation to the alleged (patho-)physiological functions of beta2GPI.
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PMID:Quantitative determination of the binding of beta2-glycoprotein I and prothrombin to phosphatidylserine-exposing blood platelets. 1552 22

Thrombophilia can be defined as an increased tendency to thrombosis. There are several defined risk factors for thrombosis, and these are generally separated into acquired and congenital factors. Congenital risk factors include deficiencies or defects in natural anticoagulants, such as antithrombin, protein C and protein S, and genetic polymorphisms such as prothrombin G20210A and the cleavage-resistant factor mutation, factor V Leiden, which leads to a condition known as activated protein C resistance. Acquired risk factors include antiphospholipid antibodies, detected as lupus anticoagulants, and/or anticardiolipin or anti-beta2-glycoprotein I antibodies. Elevated homocysteine, immobility, increasing age, surgery, cancer, poor nutrition, pregnancy, high levels of clotting factors, and use of oral contraceptives and hormone replacement therapy comprise other risk factors. Each of these constitutes an element of increased risk, which is compounded when concomitant. There is ongoing debate regarding relative and compound risks, the value of laboratory screening, whom to screen for with these markers, and the form and duration of clinical management. This report briefly explores, from a scientist's perspective, some important issues that are sometimes overlooked.
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PMID:Diagnostic issues in thrombophilia: a laboratory scientist's view. 1570 70

Antiphospholipid antibodies are a wide and heterogeneous group of immunoglobulins that include, among others, lupus anticoagulants and anticardiolipin antibodies. Their presence in patients with arterial and venous thrombosis, and/or obstetrical complications, defines the antiphospholipid syndrome. Antiphospholipid antibodies do not recognize anionic phospholipids, but recognize plasma proteins bound to suitable anionic surfaces: beta2-glycoprotein I and prothrombin are the most common and most frequently investigated antigens. We systematically reviewed published articles on the antiphospholipid syndrome to investigate the association between thrombosis and some antiphospholipid antibodies. Lupus anticoagulants were a clear risk factor for thrombosis, irrespective of the site and type of thrombosis, the presence of systemic lupus erythematosus, and the methods used to detect them. Anticardiolipin and anti-beta2-glycoprotein I antibodies were possible risk factors of thrombosis, at least in some selected situations. The measurement of antiprothrombin antibodies is not helpful to define the patient's risk of thrombosis. These results are mainly due to the still far from optimal standardization of the methods to detect antiphospholipid antibodies; the lack of standardized reference materials; the heterogeneity in reagents, calibrators, and assay conditions; and the methods used to calculate the results. Many efforts are currently being made to improve assay standardization and harmonization, which should help to clarify the clinical relevance of antiphospholipid antibodies.
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PMID:Antiphospholipid syndrome: clinical and diagnostic utility of laboratory tests. 1570 71

The antiphospholipid syndrome is defined as the occurrence of one or more episodes of vascular thrombosis and/or miscarriage together with antiphospholipid antibodies. Some of these antibodies can be detected via coagulation assays by prolonging phospholipids-dependent assays. These unspecific inhibitors are termed lupus anticoagulant, due to their first description by Conley and Hartmann in patients with disseminated lupus erythematosus. Lupus anticoagulants are now defined as acquired autoantibodies directed against a phospholipid-binding protein such as beta2-glycoprotein I or prothrombin. Because of this binding, lupus anticoagulants form bivalent complexes which slow down coagulation reactions in vitro by forming stable complexes on coagulation active phospholipids. In vivo, these complexes may result in cellular activation and cause thrombosis. Laboratory diagnosis for the lupus anticoagulant should be performed by a combination of tests, including phospholipid-dependent clotting assays, plasma mixing studies, and demonstration of the phospholipid-dependency of the inhibitory activity.
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PMID:[Laboratory diagnosis of the lupus anticoagulants]. 1571 20


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