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)

Patients with a family history of thrombosis, early-onset or recurring thrombosis, thrombosis at unusual sites, or warfarin-induced skin necrosis should be investigated for a possible underlying inherited hypercoagulable disorder. These include AT-III deficiency, protein C and S deficiencies, and APC resistance. Many patients should also be evaluated for the antiphospholipid syndrome, an acquired disorder. Functional assays are more useful than immunologic assays for diagnosing AT-III deficiency, protein C and S deficiencies, and APC resistance. A molecular probe is now available for the abnormal factor V most often responsible for APC resistance. Testing for the antiphospholipid syndrome involves assays for the lupus anticoagulant and anticardiolipin antibodies. AT-III and protein C concentrates are now available for short-term therapy. Long-term prophylactic administration of warfarin may have to be considered for some symptomatic patients with proven abnormalities, especially after more than one thrombotic event. While the management of asymptomatic persons remains controversial, the use of prophylactic anticoagulation should be anticipated for trauma, surgery, pregnancy, or other high-risk situations.
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PMID:The hypercoagulable state. Who, how, and when to test and treat. 915 17

We compared the performance characteristics of a commercial dilute Russell's viper venom (DRVV)-based APC resistance assay (Gradipore PC Impedance Test) to a routinely utilized commercial APTT based assay (Coatest APC Resistance Assay). The DRVV based assay offers improved sensitivity and specificity for the factor V Leiden mutation. However, the routine use of both assays provides optimum reliability for diagnosis of genetic APC resistance. Our results suggest that when both tests are either positive or negative, DNA analysis is unnecessary. Interference by lupus anticoagulants is dramatically minimized by the phospholipid rich DRVV reagent used in the assay and it is insensitive to high factor VIII activity. Additionally, discrepant functional assay results allow identification of patients who may have an acquired APC resistant phenotype.
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PMID:The use of two different APC resistance assay systems provides optimal sensitivity and specificity for diagnosing genetic APC resistance. 928 90

We examined thrombophilic mechanisms and outcome in 54 patients with deep-vein thrombosis (DVT), who were otherwise apparently healthy and aged < or = 50 years. Patients were followed up 6 years (median) after a confirmed first DVT between 1987-1992 with no known predisposing illnesses. Patients were traced through the hospital registry and compared with 25 matched controls. Tested thrombophilic mechanisms were either genetic (activated protein C [APC] resistance; anti-thrombin III deficiency [ATIII]; protein C or protein S deficiency [PC, PS]) or acquired (lupus anti-coagulant [LAC]/anti-cardiolipin antibodies [ACA]; subsequent diagnosis of cancer). Twenty-nine DVT patients attended for full studies. The remaining 25 were interviewed by phone and none had a reported neoplastic disease, confirmed by their hospital records and the National Cancer Registry. These patients' demographics, risk factors and subsequent course were similar in all respects to the studied group. In the control group, APC resistance was the only coagulopathy found (1/25, 4%), and it was also the most common abnormality among DVT patients (8/29, 28%) (p = 0.009). Three DVT patients had LAC/ACA (10%) and one each, ATIII, PC and PS deficiencies (3.3% each). No malignancy was encountered during a follow-up of 7.9 +/- 5.7 years. Circumstantial risk factors were found in 52% of the patients, 21% had a family history of DVT, and 41% had recurrent DVT. These characteristics were not significantly different when DVT patients with and without coagulopathy were compared.
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PMID:Causes and outcome of deep-vein thrombosis in otherwise-healthy patients under 50 years. 930 63

Inherited resistance to activated protein C (APCr) is currently recognized as the most prevalent cause underlying venous thrombophilia, with an estimated prevalence around 20% in thrombotic patients and around 1.8-7% in the general population. A correct laboratory diagnosis of APCr is therefore essential. Two different diagnostic approaches are at present at our disposal: the semi-quantitative plasma test based on the measurement of two aPTTs (in the presence and absence of activated protein C), and the detection of the factor V Arg506 Gln mutation by DNA analysis. In this study we firstly evaluated sensitivity, specificity and diagnostic efficiency of an aPTT-based plasma clotting test (Chromogenix, Sweden) versus DNA analysis; then, since the APC resistance test is invalidated by a basally prolonged aPTT (i.e. during warfarin and heparin therapy or in patients with clotting factor deficiencies or in the presence of a lupus anticoagulant), patient plasmas were conveniently diluted in factor V deficient plasma in order to correct clotting factor abnormalities. Nevertheless, patients with a LA and an aPTT ratio range 1.8-3.17 were still all misclassified. We obtained correct diagnoses in LA positive patients by preincubating plasmas with a mixture of phospholipids; therefore we decided to perform a double modified clotting test adding a mixture of platelet derived phospholipids to samples previously diluted in factor V deficient plasma. The performance characteristics of this novel method with a different aPTT reagent (Behring, Germany) were also evaluated. With this double modified test all patients were correctly classified as negative or positive for factor V mutation in agreement with DNA analysis, irrespectfully of the basal aPTT value and the aPTT reagent employed. We propose this modified version of the APCr clotting test as an easily reproducible, reliable, very sensitive and specific screening test which possibly reduces the need for DNA analysis.
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PMID:Use of modified functional assays for activated protein C resistance in patients with basally prolonged aPTT. 930 51

We provide a centralised thrombophilia screening service with sample transfer by courier or first class mail, a practice common to many centres. Sample quality is of prime importance, thus we have assessed the effect of delayed sample handling upon the haemostatic variables within our thrombophilia profile. This comprises screening for familial natural anticoagulant deficiency and APC resistance (1-4), and acquired lupus anticoagulant (5,6). The effect upon hypercoagulable markers were also assessed to facilitate evaluation of these in prospective clinical studies (7).
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PMID:The effect of delayed analysis or freeze-thawing on the measurement of natural anticoagulants, resistance to activated protein C and markers of activation of the haemostatic system. 933 Apr 40

Both experimental and clinical forms of chronic GVHD have unique immunological features. The affected animals/individuals suffer from autoimmune disorders such as systemic lupus erythematosus (SLE), and yet they are unable to mount a self MHC-restricted T cell response to foreign antigens. Pathogenesis of the latter phenomenon was investigated in an experimental model of chronic GVHD. Chronic GVHD was induced in 8-10-week-old (B6xC3H)F1 mice by tail vein injection of 5 x 10(7) spleen cells of C3H parental strain. The recipients, when tested 3 months later, were unable to mount a T helper (Th) cell response to a randomly selected immunogen, a vaccine of l0(8) killed Mycobacterium vaccae. The animals showed evidence of generalized lymphoid hyperplasia, as indicated by GVH index >1.34, and also revealed autoantibodies against erythrocytes and dsDNA, indicating establishment of chronic GVHD. However, mice with chronic GVHD of only 3 weeks duration were able to mount the Th cell response to M. vaccae. Three consecutive immunizations of these mice at 1-week intervals, with the same immunogen, resulted in the mice becoming non-responsive to the antigen. All the three responses tested, namely the DTH, lymphoproliferation and the antibody responses, were adversely affected. The non-responsiveness induced was antigen-specific. Mice receiving two immunizations with M. vaccae responded normally to Salmonella enteritidis. Pulse treatment with cyclosporin A 0.5 mg/mouse by the i.p. route, on days 0, 1, 2, 3 and 4 at the time of immunization with M. vaccae on day 1, prevented emergence of non-responsiveness. Based on this evidence, it was concluded that repeated activation of T cells of mice with chronic GVHD induces non-responsiveness. Extent of clonal loss due to activation-induced cell death (AICD) caused by i.p. injection with a superantigen Staphylococcal enterotoxin B (SEB) was investigated in F1 mice with chronic GVHD. I.p. injection of 25 microg/mouse of SEB induced loss of SEB responding clones in both normal F1 mice and those having chronic GVHD; however, the extent of loss was much greater in the latter. In vitro antigen-specific proliferation of primed splenic T cells of normal F1 mice was observed to be quite poor when antigen was presented by APC of mice with chronic GVHD of 3 weeks duration. Proliferation profiles of T cells of normal F1 mice, in response to stimulation with concanavalin A (Con A) or SEB, were studied, using as APC irradiated spleen cells of normal F1 mice or of F1 mice with chronic GVHD of 3 weeks duration. With Con A and APC of normal F1 mice, peak proliferation was observed at 48 h, which remained at the same level up to 72 h and declined thereafter, possibly due to AICD. With SEB and the normal APC, proliferation progressively peaked at 72 h and declined thereafter. With APC of mice with chronic GVHD, the 48 h proliferative responses of both Con A and SEB were comparable to those caused by APC of normal F1 mice; however, thereafter the responses declined steeply, suggesting greater AICD. Based on these results, it was concluded that APC of mice with chronic GVHD are functionally altered to induce greater AICD.
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PMID:Antigen-presenting cells (APC) of mice with chronic graft-versus-host disease (GVHD) cause excessive activation-induced death of T helper cells. 940 51

The pathophysiological basis of blood coagulation includes hemostatic causes and thrombophilia (protein C deficiency, protein S deficiency, APC resistance, plasminogen deficiency, antithrombin III deficiency, hyperhomocystinemia, lupus anticoagulans and anticardiolipin antibodies). The effect of female sexual steroids on coagulation has been observed: ethinyl estradiol produced an increased risk of thromboembolism. Also, there was a pronounced increase of fibrin division products among users of higher EE doses. The effect of gestagens on coagulation was found to be contradictory. The risk of thrombosis as related to oral contraceptives (OCs) was investigated in several studies. Desogestrel and gestoden-containing OCs produced a higher incidence of thrombosis than levonorgestrel-containing pills. A WHO multinational case-control study was carried out in 21 centers and 17 countries during 1989-93, including a total of 1143 cases and 2998 controls. The risk of thrombosis was 2-3 times higher among women using gestoden or desogestrel-containing OCs than those using LNG-containing OCs. Similarly, there was a 1.58 increased risk according to a case-control study using data from England and Germany. A 1995 study of 700 medical practices in Great Britain involving 238,130 women showed increased risk for gestoden (1.8) and desogestrel (1.9). Another 1995 study used the data of 697,000 women from 398 practices in England and registered 116 cases of thromboembolism. There was a risk three times higher for all ovulation inhibitors among cases compared to controls, as well as a pregnancy risk 5.9 times higher. Nonetheless, no definitive conclusion can be drawn from all of these epidemiological studies, which could challenge the prevailing view on contraceptive behavior.
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PMID:[Contraceptive agents and risk of thrombosis]. 941 70

T cells specific for nucleosomal autoepitopes are selectively expanded in lupus mice and these Th cells drive autoimmune B cells to produce pathogenic antinuclear antibodies. We transfected the TCR-alpha and -beta chain genes of a representative, pathogenic autoantibody-inducing Th clone specific for the nucleosomal core histone peptide H471-94 into TCR-negative recipient cells. Although the autoimmune TCRs were originally derived from SNF1 (I-Ad/q) mice, the transfectants could recognize the nucleosomal autoepitope presented by APC-bearing I-A molecules of all haplotypes tested, as well as human DR molecules. Competition assays indicated that the autoepitopes bound to the MHC class II groove. Most remarkably, MHC-unrestricted recognition of the nucleosomal peptide epitope was conferred by the lupus TCR-alpha chain even when it paired with a TCR-beta chain of irrelevant specificity. Several other disease-relevant Th clones and splenic T cells of lupus mice had similar properties. The TCR-alpha chains of these murine lupus Th clones shared related motifs and charged residues in their CDRs, and similar motifs were apparent even in TCR-alpha chains of human lupus Th clones. The lupus TCR-alpha chains probably contact the nucleosomal peptide complexed with MHC with relatively high affinity/avidity to sustain TCR signaling, because CD4 coreceptor was not required for promiscuous recognition. Indeed, pathogenic autoantibody-inducing, CD4-negative, TCR-alphabeta+ Th cells are expanded in systemic lupus erythematosus. These results have implications regarding thymic selection and peripheral expansion of nucleosome-specific T cells in lupus. They also suggest that universally tolerogenic epitopes could be designed for therapy of lupus patients with diverse HLA alleles. We propose to designate nucleosomes and other antigens bearing universal epitopes "Pantigens" (for promiscuous antigens).
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PMID:Promiscuous presentation and recognition of nucleosomal autoepitopes in lupus: role of autoimmune T cell receptor alpha chain. 944 17

Congenital deficiency in coagulation inhibitors is a cause of hereditary thrombotic disease. The severity of symptoms is variable and depends on the type of deficit. In this paper, 44 children suffering from deep venous thrombosis, with a mean age of 5 years, were studied. A search for Lupus anticoagulant (LA) and coagulation inhibitor deficiency showed: 3/44 cases (6.8%) had protein S deficiency, 2/44 cases (4.5%) had protein C deficiency, 1/44 cases (2.3%) had deficiencies in both protein C and S; no cases of AT III deficiency and LA was positive in 2/44 cases (4.5%). Only 1 case of APC resistance out of 13 studied was found. Four family studies were performed and confirmed the congenital origin of the disorder.
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PMID:Thrombosis in congenital deficiencies of AT III, protein C or protein S: a study of 44 children. 949 88

The composition of antibodies against phospholipids (PLa) was analysed in 54 PLa-positive thrombophilic women, different in the factor V genotype (Arg506-Gln mutation carriers, n=23; and noncarriers, n=31). The presence of antibodies against prothrombin was also studied. The incidence of cardiolipin antibodies (CLa) and lupus anticoagulant (LA) activity was similar among the carriers and noncarriers, while phosphatidylserine antibodies (PSa) were often the only PLa detected in the carriers of the mutation (7/23 vs. 2/31; chi2=5.47, p<0.05). Antibodies against prothrombin were found in 11 of 54 patients. They segregated with PSa (8/19 vs. 3/35; chi2=8.54, p<0.025), but were equally distributed between carriers and noncarriers. The analysis of nAPC-ratio in patients with different PLa showed that it was consistently lower in the mutation carriers in whom none of the PLa caused further suppression. The noncarrier group positive for LA in several assays was associated with a reduction of nAPC-ratio (0.82+/-0.25 vs. 1.12+/-0.22, p<0.05). Our findings indicate that PLa contributing to the development of APC resistance are restricted to those possessing LA activity.
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PMID:Production of phospholipid antibodies in selected thrombophilic women differing in genotype at the 506 site of factor V. 968 88


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