Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0024141 (systemic lupus erythematosus)
 44,322 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Antiphospholipid antibodies are a diverse group of immunoglobulins initially thought to have specificity to phospholipid epitopes. It is apparent that autoimmune anticardiolipin antibodies require a serum cofactor beta-2-glycoprotein I (beta 2GPI) for their binding to phospholipids. Lupus anticoagulant also may bind to phospholipids by beta 2GPI or by prothrombin. The description of binding to protein-phospholipid epitopes may explain several perplexing features of these antibodies both in vitro and in vivo. Antiphospholipid antibodies have a well-established association with clinical disease--in particular thrombosis, thrombocytopenia and recurrent fetal loss. The mechanism of the predisposition to thrombosis seen with these antibodies is poorly understood. It has been suggested that they may cause endothelial dysfunction by causing increased tissue factor expression, by inhibiting prostacyclin secretion or by inhibiting fibrinolysis. Various platelet-activating activities have also been described. The evidence that antiphospholipid antibodies promote thrombosis by effects on endothelium or platelets is inconclusive. Inhibition of protein C activation, or of activated protein C action, has been demonstrated in vitro. A poor correlation between thrombosis in vivo and these inhibitory effects has been found. Beta-2-glycoprotein I has been identified as a cofactor for binding to phospholipid by thrombogenic anticardiolipin antibodies. That beta 2GPI may be a natural anticoagulant of importance remains to be proved. Inhibition by antiphospholipid antibodies of this anticoagulant function could explain the propensity to thrombosis seen in association with these antibodies.
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PMID:Antiphospholipid antibodies and thrombosis. 784

Anti-cardiolipin Abs (ACLA) are present in the sera of patients with antiphospholipid syndrome (APLS) and are associated with high incidence of thromboembolic phenomena, fetal loss, thrombocytopenia, and prolongation of the phospholipid-dependent coagulation assays (lupus anticoagulant). Recently, it has been shown that APLS can be induced experimentally by using ACLA. However, the pathophysiology of thrombus formation in this syndrome is unknown. Monocytes generate a potent procoagulant activity (PCA) after stimulation with various substances. Increased PCA has been found in monocytes from patients with diseases that are associated with high incidence of thromboembolic phenomena. In the present study, we report that the monoclonal ACLA that were shown previously by us to induce APLS stimulate mononuclear cells to generate a potent PCA. The PCA resembled tissue factor (TF) in that it accelerated clotting through the extrinsic coagulation pathway, was abolished by phospholipase C, and was inhibited by anti-TF mAbs. The induction of TF-like activity by ACLA in monocytes was dose- and time-dependent. It was induced in monocytes and monocytic cell lines, but not in lymphoid or myeloid cells, and did not require T lymphocytes for expression. The generation of PCA was dependent on protein synthesis inasmuch as it was prevented by adding puromycin to the system and was not affected by cytarabine. The TF-like activity that is induced by ACLA in monocytes may activate coagulation and thereby play a major role in the pathogenesis of thrombus formation in APLS.
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PMID:Induction of tissue factor-like activity in monocytes by anti-cardiolipin antibodies. 802 60

This review has stressed the common hereditary and acquired blood protein defects associated with thrombosis. The most common of the hereditary defects appear to be antithrombin, protein C, and protein S deficiency and the most common acquired defects are anticardiolipin antibodies and the lupus anticoagulant. Therefore these are the defects that should first be looked for in an individual with unexplained thrombosis. If these more common defects are not found, then the rarer defects, including heparin cofactor II, plasminogen or tissue plasminogen activator deficiency, dysfibrinogenemia, or elevated PAI-1 should next be sought. The importance of finding these defects has significant implications for therapy of the individual patient and for institution of family studies to identify, inform, and possibly treat others at risk. It is expected that as knowledge of hemostasis expands, more hereditary and acquired defects, such as elevated lipoprotein(a) or defects of extrinsic (tissue factor) pathway inhibitor may be associated with enhanced risks of thrombosis.
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PMID:Syndromes of hypercoagulability and thrombosis: a review. 805 29

This article has stressed the common hereditary and acquired blood protein defects associated with thrombosis. The commonest hereditary defects appear to be antithrombin, protein C, and protein S deficiency, and the commonest acquired defects are anticardiolipin antibodies and the lupus anticoagulant. Therefore these are the defects that should first be looked for in an individual with unexplained thrombosis. If these commoner defects are not found, the rarer defects, including HC-II, plasminogen or t-PA deficiency, dysfibrinogenemia, or elevated PAI-1, should next be sought. The incidence of activated protein C cofactor deficiency is not yet clear but may also represent a common defect. Likewise, PAI-1 defects may, with time, be shown to be quite common. The importance of finding these defects has significant implications for therapy of the individual patient and for institution of family studies to identify, inform, and possibly treat others at risk. It is expected that as knowledge of hemostasis expands, more hereditary and acquired defects, such as elevated lipoprotein (a) or defects of extrinsic (tissue factor) pathway inhibitor may be associated with enhanced risks of thrombosis.
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PMID:Hypercoagulability and thrombosis. 817 Feb 63

Markers of endothelial cell activation were measured in 28 patients presenting with various forms of limited or focal type cutaneous vasculitis. Plasma levels of tissue plasminogen activator antigen (t-PA:Ag), plasminogen activator inhibitor type 1 antigen (PAI-1:Ag) and PAI-1 activity, fibrin plate, von Willebrand factor antigen (vWF:Ag), tissue factor (TF) and soluble thrombomodulin (sTM) were measured. In comparison with the control group (n = 20) there was a significant increase in t-PA:Ag, vWF:Ag and TF (P < 0.05, Mann-Whitney U-test) in the cutaneous vasculitis group. This study confirms that measurable degrees of endothelial activation occur in cutaneous vasculitis. Cutaneous vasculitis includes a diverse group of clinical conditions, which are associated with inflammatory changes in cutaneous blood vessels with local fibrin deposition. The aetiology and pathogenesis of the majority of these entities remain unknown. Causative mediators are thought to include immune complexes, anti-endothelial cell antibodies, cytotoxic lymphocytes and viruses. Histologically, immune complexes and complement are frequently detected on the vessel wall, and serologically anti-endothelial antibodies are often detected in patients with vasculitis and in systemic lupus erythematosus (SLE) which correlate with the severity of cutaneous vasculitis, arthritis and nephritis. Lymphocyte-mediated toxicity to endothelial cells has been reported in a small number of patients with giant cell arteritis and Takayasu's arteritis. The vascular endothelium plays a central part in the control of haemostasis. Under physiological conditions endothelial cells present an anticoagulant surface to blood constituents, partially due to surface expression of heparan sulphate and thrombomodulin (TM). Heparan sulphate binds antithrombin III (ATIII), thereby accelerating inactivation of intrinsic coagulation enzymes. Thrombomodulin is an endothelial cell surface glycoprotein which promotes anticoagulation by forming a complex with thrombin which then activates protein C. Activated protein C together with a cofactor, protein S, inactivates FVa and FVIIIa. von Willebrand factor (vWF) is synthesized by endothelial cells, stored in Weibel-Palade bodies and released into the circulation upon endothelial stimulation. vWF mediates the binding of platelets to the subendothelium and is the carrier molecule for FVIIIC. The endothelium controls fibrinolysis by producing t-PA and its inhibitor PAI-1. Inflammatory cytokines such as interleukin-1 (IL-1) and tumour necrosis factor (TNF) activate endothelial cells, causing a shift from an antithrombotic to prothrombotic state, including expression of tissue factor, increased synthesis of PAI-1 and decreased expression of TM. Fibrin deposition and intravascular thrombosis are seen in cutaneous vasculitis syndromes, suggesting local endothelial cell activation. The aim of this pilot study was to assess whether perturbation of the endothelium in cutaneous vasculitis could be detected in the patients' plasma samples. If so, further studies to assess any correlation in levels of these markers with disease activity might prove useful in the future.
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PMID:Endothelial cell activation in cutaneous vasculitis. 868 65

Antiphospholipid antibodies (aPLs) are associated with thrombosis, but the mechanisms of this thrombotic tendency are unknown. We studied 56 patients 612 with systemic lupus erythematosus [SLE] and aPLs and previous thrombosis, 12 with SLE and aPLs but no thrombosis, 15 with SLE without aPLs or thrombosis, 11 with primary antiphospholipid syndrome with thrombosis, and 6 asymptomatic subjects with aPLs) to investigate the ability of aPLs to induce tissue factor (TF) expression on human normal monocytes. A double direct immunofluorescence technique (anti-CD14 and anti-TF) was used, and procoagulant activity in viable and disrupted cells was measured after plasma incubation for 6 hours at 37 degrees C with normal mononuclear cells. Hemostasis regulatory proteins, prothrombin fragment 1 + 2, and thrombin-antithrombin III complex levels were determined. Increased TF expression and procoagulant activity were observed using plasma samples from SLE patients with aPLs and thrombosis (P < .01) and from primary antiphospholipid syndrome patients (P < .01) but not from patients with SLE and aPLs but no thrombosis, patients with SLE without aPLs, or asymptomatic patients with aPLs. Purified aPL immunoglobulins from one primary antiphospholipid syndrome and two SLE patients added to normal plasma showed a significant increase in both TF expression and procoagulant activity (P < .05) compared with purified aPL from two SLE patients without thrombosis. The addition of nonspecific IgG from three SLE patients without aPLs and from three control subjects did not increase TF expression. Low free protein S was seen in eight patients. Increased TF expression and low free protein S correlated with thrombosis (P < .01) and with higher prothrombin fragment 1 + 2 and thrombin-antithrombin III values (P < .01). These observations may contribute to a further understanding of the thrombotic risk in aPL patients.
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PMID:Hypercoagulable state in patients with antiphospholipid syndrome is related to high induced tissue factor expression on monocytes and to low free protein s. 891 Dec 69

Resistance to the anticoagulant effects of activated protein C (APC) is now considered the most prevalent cause of inherited thrombophilia. The great majority of patients with activated protein C resistance (APCR) have a missense mutation in the factor V molecule (factor V Leiden, FVR506Q) resulting in defective inactivation of factor Va due to a loss of an APC cleavage site. The diagnosis of APCR has been based upon the inability of APC to prolong the activated partial thromboplastin (aPTT) clotting time in subjects with APCR. However, this assay has a number of deficiencies which limit its general use. We have evaluated a newly described one-stage tissue factor dependent factor V coagulation assay for APCR in 117 patients and controls and compared the results of this assay in a blinded manner to a polymerase chain reaction (PCR) based assay for the molecular defect of factor V Leiden. 43% (50/117) of the patients studied were receiving coumadin or heparin, or had a lupus anticoagulant. The tissue factor dependent factor V assay had 100% specificity and sensitivity for factor V Leiden and successfully predicted a homozygous state in the three documented homozygotes. The PCR-based assay for factor V Leiden resulted in a single false positive assay due to a silent A to C transition at nucleotide 1692 resulting in the loss of the Mnl restriction endonuclease cleavage site. The single-stage tissue factor dependent factor V assay is a highly sensitive and generally applicable assay for APCR.
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PMID:Evaluation of a tissue factor dependent factor V assay to detect factor V Leiden: demonstration of high sensitivity and specificity for a generally applicable assay for activated protein C resistance. 894

Plasma activated factor VIIa (FVIIa) levels were measured in various diseases using mutant tissue factor (TF). FVIIa levels in thrombotic patients and patients with idiopathic thrombocytopenic purpura were significantly higher than those in healthy control subjects. The plasma FVIIa levels in thrombotic patients treated with warfarin were similar to those of control subjects. The plasma FVIIa levels in pregnant women and patients with systemic lupus erythematosus, infection or malignancies were high. However, the levels in patients with disseminated intravascular coagulation (DIC) were not significantly increased. DIC patients are in a severe hypercoagulable state, and exhibit severe consumption of coagulation factors. The slightly increased FVIIa level in the DIC patients observed is probably considered to be caused by consumption of coagulation factors. The plasma FVIIa level was poorly correlated with other hemostatic parameters except for protein C in our analysis of all cases. In the analysis of DIC and thrombotic patients treated without warfarin, the plasma FVIIa level was negatively correlated with TF antigen. Plasma FVIIa levels might reflect hypercoagulability in thrombotic diseases, and a normalized FVIIa level in patients with thrombotic diseases should be considered to be associated with DIC.
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PMID:Plasma levels of activated FVII in various diseases. 903 61

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

Quantitative reverse transcription polymerase chain reaction and in situ hybridization were employed to investigate the expression of tissue-type and urokinase-type plasminogen activators (t-PA and u-PA, respectively), of their specific inhibitor (PAI-1), and of the procoagulant molecule tissue factor (TF) in tissues from mice that develop autoimmune disease (MRL lpr/lpr). A dramatic increase in PAI-1 activity in plasma and in PAI-1 mRNA in the kidneys was observed in these mice, and this increase appeared to correlate with the progression of lupus nephritis. The increase in PAI-1 mRNA was relatively specific for the kidney as little or no change was observed in most other tissues. One exception was the brain where PAI-1 mRNA was also significantly higher in the diseased mice. In addition to these changes in PAI-1, decreases in u-PA mRNA and increases in TF mRNA were demonstrated in kidneys from the lupus-prone mice. These changes also correlated with the development of lupus nephritis and with spontaneous glomerular and peritubular fibrin deposition in the nephritic kidney. In this regard, the MRL lpr/lpr mice were found to be considerably more sensitive to endotoxin than the normal controls, developing fibrin deposits in the kidneys and other tissues at 10- to 20-fold lower concentrations of this toxic agent. The increase in PAI-1 and TF mRNAs and the decrease in u-PA mRNA in the kidneys of MRL lpr/lpr mice suggests that changes in the expression of these genes may promote the formation of microthrombi and thus contribute to the progression of lupus nephritis in this model.
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PMID:The kidneys of mice with autoimmune disease acquire a hypofibrinolytic/procoagulant state that correlates with the development of glomerulonephritis and tissue microthrombosis. 928 21


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