UMLS:C0409974 - FACTA Search

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Query: UMLS:C0409974 (lupus)
22,386 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In this review we will discuss the possible interference of antiphospholipid antibodies with the protein C system. Antiphospholipid antibodies can interfere with the protein C system in different ways: (i) via inhibiting the formation of thrombin; (ii) via interference with the activation of protein C by the thrombomodulin-thrombin complex; (iii) via inhibition of the assembly of the protein C complex; (iv) via inhibition of the activity of protein C, directly or via its cofactor protein S, and (v) via antibodies directed against the substrates of APC, factors Va and VIIIa, thereby protecting them for inactivation. The experimental and theoretical indications that one of these mechanisms will explain the pathogenesis of the antiphospholipid syndrome is critically examined.
Lupus 1996 Oct
PMID:Protein C and other cofactors involved in the binding of antiphospholipid antibodies: relation to the pathogenesis of thrombosis. 890 88

Protease nexin 1 (PN-1), a potent serpin-class antiprotease, is thought to be synthesized in the murine kidney. However, neither the cellular localization of PN-1 synthesis nor its role has yet been defined. To address these questions, we determined by in situ hybridizations RNase protection assay and immunoblotting, the sites of PN-1 mRNA accumulation in normal mouse kidneys and the modulation of PN-1 expression in several pathological conditions. In normal kidneys, PN-1 mRNA was detected primarily in glomeruli, most likely in mesangial cells. The glomerular expression of PN-1 was substantially enhanced not only in lupus-like glomerulonephritis (induced by IgG3 monoclonal rheumatoid factors or occurring spontaneously in lupus-prone mice), but also in mild glomerular lesions associated with intracapillary thrombi induced by IgG3 anti-trinitrophenyl monoclonal antibodies. In contrast, no modulation of PN-1 mRNA levels was observed during the course of lipopolysaccharide-induced acute tubular necrosis. A constitutive PN-1 gene expression and its up-regulation during glomerular injury suggest a possible role for PN-1 in glomerular biology. In view of its high inhibitory activity towards thrombin, mesangial PN-1 may be involved in the control of glomerular coagulation following initial glomerular injuries.
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PMID:Protease nexin 1 in the murine kidney: glomerular localization and up-regulation in glomerulopathies. 894 77

We report here experiments on how lupus anticoagulant antibodies (LA IgG) that react with prothrombin bind to surface phospholipid and affect prothrombin's affinity for surface phospholipid and activation to thrombin. LA IgG was purified by protein A chromatography from the plasma of 16 patients of whom four had associated hypoprothrombinemia and 10 had experienced thrombosis. Many LA IgG bound, in the absence of phospholipid and calcium, not only to immobilized prothrombin but to both prothrombin 1 and fragment 1, which established at least an oligoclonal origin of LA IgG. No LA IgG bound to thrombin. Although prothrombin and Ca2+ were required to support binding of LA IgG to immobilized phosphatidylserine (PS), prothrombin at higher concentrations inhibited binding, presumably by competing with prothrombin/LA IgG complexes for PS binding sites. Prothrombin 1, which cannot bind to PS, also inhibited binding of many LA IgG to PS, presumably by forming competing soluble prothrombin 1/LA IgG complexes. Despite their ability to react with prothrombin independent of phospholipid, LA IgG enhanced binding of prothrombin to immobilized phospholipid and to cultured human umbilical vein endothelial cells. Prothrombin bound with LA IgG to the surface of endothelial cell monolayers could be activated to thrombin after supernatant prothrombin and LA IgG were washed away. The relation is discussed of these observations to a hypothesis that LA IgG mediated concentration of prothrombin on cell surface phospholipid represents a mechanism by which LA IgG could increase thrombotic risk.
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PMID:Mechanism and effects of the binding of lupus anticoagulant IgG and prothrombin to surface phospholipid. 894 52

By means of CM-Sephadex C-25, DEAE-Sephadex A-50, Sephadex G-200, and Sephadex G-75 chromatographies, a lupus anticoagulant like protein (LALP) from Agkistrodon halys brevicaudus was purified. On SDS-PAGE, the purified LALP had a molecular weight of 25,500 daltons under non-reducing condition and 15,000 daltons under reducing condition. The isoelectric point was pH 5.6. Its N terminal amino acid sequencing revealed a mixture of 2 sequences: DCP(P/S)(D/G)WSSYEGH(C/R)(Q/K). It was devoid of phospholipase A, fibrino(geno)lytic, 5'-nucleotidase, L-amino acid oxidase, phosphomonoesterase, phosphodiesterase and thrombin-like activities, which were found in crude venom. In the presence of LALP, PT, aPTT, and dRVVT of human plasma were markedly prolonged and its effects were concentration-dependent but time-independent. The inhibitory effect of LALP on the plasma clotting time was enhanced by decreasing phospholipid concentration in TTI test. The individual clotting factor activity was not affected by LALP when higher dilutions of LALP-plasma mixture were used for assay. Russell's viper venom time was shortened when high phospholipid confirmatory reagent was used. Therefore, the protein has lupus anticoagulant property.
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PMID:Purification and characterization of lupus anticoagulant like protein from Agkistrodon halys brevicaudus venom. 897 23

A patient had both lupus anticoagulant hypoprothrombinemia syndrome and celiac disease. The presence of a neutralizing antiprothrombin antibody in the patient's serum was demonstrated by coagulation tests, immunoadsorption, and Western blot analysis. The probable cause for the severe hypoprothrombinemia was clearance of prothrombin-antibody complexes from the circulation. Studies showed the antiprothrombin antibody binding to human prothrombin was phospholipid- and Ca(++)-independent; the antibody did not bind to human thrombin. The target epitope of the antibody was studied by Western blot analysis of mutated recombinant human prothrombin molecules. The antibody reacted with the fragment 2-A region of prothrombin, spanning the second kringle domain and the thrombin A chain within prothrombin. Based on this new method, the proposed mechanism for the neutralizing action of the antibody is impairment of prothrombin activation by the prothrombinase complex, either by steric hindrance of the hydrolysis of prothrombin by factor Xa or by interference of the interaction of prothrombin with factor Va; both reactions are required for efficient conversion of prothrombin to thrombin.
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PMID:A new method for characterization and epitope determination of a lupus anticoagulant-associated neutralizing antiprothrombin antibody. 902 68

Recurrent fetal loss, and/or arterio-venous thrombosis are frequent complications in patients with the antiphospholipid antibodies (aPL), anticardiolipin antibody (aCL) and/or lupus anticoagulant (LA). Furthermore, patients with LA have been found to be more susceptible to thrombosis than those with aCL, thus suggesting differences in the pathogenesis of aCL and LA. We examined the systemic lupus erythematosus (SLE) patients with aCL and/or LA for differences in the markers for hypercoagulable state, including thrombin-antithrombin complex (TAT), prothrombin fragment 1 + 2 (F1 + 2), thrombomodulin (TM) and activated factor VII (FVIIa), and lipoprotein (a) (Lp(a)), which is a well-known risk factor for thrombosis. The FVIIa concentration was significantly higher in the LA-positive patients than in the aCL-positive and aPL-negative patients. No significant differences in TAT, F1 + 2, TM, and Lp(a) values were found among the aCL-positive, LA-positive and LA-negative patients groups. These findings indicate that patients with LA were in a more prethrombotic state than those with aCL. The measurement of FVIIa may serve as a useful predictive marker for thrombosis, but further studies are needed to clarify the mechanisms of thrombosis in this clinical setting.
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PMID:Increased factor VIIa levels in systemic lupus erythematosus patients with lupus anticoagulant. 907 18

In this paper we describe the effect of activated protein C (APC) on thrombin generation initiated in platelet-poor plasma via the extrinsic or the intrinsic pathway. Thrombin was determined with a specific chromogenic substrate and quantitated by calculating the time integral of the thrombin generation curve, i.e. the endogenous thrombin potential (ETP). Addition of APC to normal plasma after both extrinsic and intrinsic initiation of coagulation resulted in a dose-dependent inhibition of thrombin generation as reflected by the decrease in ETP. Data obtained in intrinsically triggered plasma of normal individuals were subject to large variation. Therefore, the effect of APC on thrombin generation in APC-resistant plasmas was only studied in extrinsically stimulated reaction systems. APC had much less effect on the ETP of plasma from individuals that were heterozygous or homozygous for the mutation Arg506-->Gln506 in factor V (APC resistance). There appears to be a linear relationship between the ETP and the amount of alpha 2-macro-globulin-thrombin complex (alpha 2 M-IIa) that accumulates in plasma during thrombin formation. Since the alpha 2M-IIa complex possesses amidolytic activity, we measured the effect of APC on thrombin generation via the so-called normalized APC sensitivity ratio (APC-sr). The latter was defined as the ratio of the end levels of amidolytic activity of the alpha 2M-IIa complex determined in the presence and absence of 50 nM APC (alpha 2M-IIa + APC/(alpha 2M-IIa - APC) divided by the ratio of a normal plasma pool. Significant differences (P < 0.001) were observed between APC-sr of plasmas from normal individuals (APC-sr: 0.5-1.9, n = 25) and of plasmas from individuals that were heterozygous (APC-sr: 2.1-6.7, n = 17) or homozygous APC resistant (APC-sr: 3.9-5.9, n = 5). There was no overlap between APC-sr of normal plasmas and plasma from individuals, bearing the factor. V mutation. Abnormal APC-sr in certain plasmas (pregnancy, use of oral contraceptives, anticoagulant therapy, protein S deficiency or lupus anticoagulant) were corrected by performing the assay on a plasma sample that was diluted 10-fold in factor V-deficient plasma. Our data show that measurement of the effect of APC on the ETP yields valuable information about the (pro)thrombotic status of plasma (e.g. APC resistance, pregnancy, use of oral contraceptives).
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PMID:Effect of activated protein C on thrombin generation and on the thrombin potential in plasma of normal and APC-resistant individuals. 910 35

Resistance to activated protein C (APC) is the most common defect found in patients who have venous thromboembolism. The molecular basis of APC resistance is a single-point mutation (arginine506-glutamine) in the gene that encodes for coagulation factor V. This mutation results in a factor V molecule (factor V(Leiden)) that is less effectively downregulated by APC than is normal factor V. The gold standard for the detection of this defect is DNA analysis. Several functional tests, which are based on activated partial thromboplastin time clotting assays, are also commercially available for the detection of APC resistance. These tests, however, have not been satisfactory. Compared with the results of DNA analysis, the results of these tests are frequently discordant. Further, in some patients (eg, those who have lupus anticoagulant or have been receiving heparin), these tests cannot be performed at all. DNA analysis is therefore required in most patients to distinguish congenital APC resistance (factor V(Leiden)) from other causes of abnormal response in functional APC-resistance tests. The purpose of this study was to investigate the clinical use of a new chromogenic APC-resistance assay that is based on direct measurement of the effect of APC on factor Va cofactor activity in highly diluted, thrombin-activated plasma specimens. All individuals who provided plasma samples for the study underwent DNA analysis to detect the presence of the factor V mutation. In all patient subgroups, including patients who had lupus anticoagulant and those who were receiving unfractionated heparin or coumarin derivatives, the chromogenic test showed excellent discrimination between normal individuals and those who were heterozygous or homozygous for the factor V(Leiden) mutation. No discordant results with DNA analysis were found in 150 cases. The new test easily can be incorporated in any laboratory that has an automated coagulation apparatus with an option for chromogenic measurements. All reagents are commercially available at low cost, and the test is easy to perform and is not time-consuming. This new, sensitive, and specific test allows large-scale screening for the factor V(Leiden) mutation without the need for DNA analysis.
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PMID:The clinical application of a new specific functional assay to detect the factor V(Leiden) mutation associated with activated protein C resistance. 912 63

We examined plasma levels of activated factor VII (F VIla) in 50 patients positive for lupus anticoagulant (LA), in 83 patients negative for LA, and in 10 healthy volunteers as controls. Plasma F VIIa was present in healthy volunteers; its level was significantly increased, compared to the level in the controls, in patients with thrombosis, collagen diseases, and disseminated intravascular coagulation (DIC), suggesting that it reflected a thrombotic state. Plasma F VIIa was correlated with thrombin-antithrombin complex (TAT) in patients negative for LA but showed no such correlation in those positive for LA. Plasma F VIIa was negatively correlated with activated partial thromboplastin time (APTT) in patients positive for LA, but not in those negative for LA, suggesting that LA could inhibit the F VIIa assay system. Plasma F VIIa level was significantly increased in patients with thrombotic diseases; however, in patients positive for LA, it is possible that increased plasma F VIIa level may not be correlated with thrombogenicity.
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PMID:Plasma-activated factor VII level in patients positive for lupus anticoagulant. 913 11

beta2-Glycoprotein I (beta2GPI), a plasma glycoprotein with phospholipid-binding property, is known to be the actual target antigen for autoimmune type anticardiolipin antibodies (aCLs). Certain groups of aCLs (anti-beta2GPI antibodies) exert lupus anticoagulant (LA) activity and perturb the function of vascular endothelial cells. This investigation aimed at highlighting some insights into the molecular basis by which aCLs exert their biological effects by using anti-beta2GPI mAbs with well-characterized epitopes from mice and from patients with antiphospholipid syndrome. Anti-beta2GPI mAbs directed against the third domain (Cof-20 and Cof-22) and fourth domain (Cof-21, EY1C8, and EY2C9) of beta2GPI inhibited the thrombin generation induced by Russell's viper venom in diluted plasma and that induced by the prothrombinase complex reconstituted with purified clotting factors. This anticoagulant activity was abrogated in the presence of an excess amount of phospholipids, thus resembling the LA activity. In stark contrast, anti-beta2GPI mAbs directed against the fifth domain and the carboxy-terminal region of the fourth domain showed no LA-like activity. These findings suggest that the LA activity of anti-beta2GPI antibodies depends on their epitope specificity. Experiments carried out to clarify the mechanism of the LA activity showed that anti-beta2GPI mAbs with LA-like activity, but not those without this effect, enhance the beta2GPI binding to phospholipids. In addition, the F(ab')2 fragment, but not the Fab' fragment, of the anti-beta2GPI mAbs was found to enhance the LA activity and the beta2GPI binding to phospholipids, suggesting that anti-beta2GPI antibodies induce formation of multiple complexes of beta2GPI on the surface of phospholipids because of their bivalent property. This clustering of beta2GPI molecules induced by anti-beta2GPI antibodies, probably because of their multivalent property and epitope specificity, might hinder the lateral mobility and activation of clotting factors on the surface of phospholipids and thus exert LA activity. Clustering of beta2GPI molecules may also explain the molecular mechanism by which anti-beta2GPI antibodies alter the function of leukocytes and endothelial cells. The well-documented heterogeneous LA activity of aCLs (anti-beta2GPI antibodies) may also be explained by their epitope specificity.
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PMID:Anti-beta2-glycoprotein I (beta2GPI) monoclonal antibodies with lupus anticoagulant-like activity enhance the beta2GPI binding to phospholipids. 915

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