Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0409974 (lupus)
 22,386 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We reported previously that CD4+ T cells and B cells in mice with retrovirus-induced murine acquired immunodeficiency syndrome (MAIDS) caused by LP-BM5 murine leukemia virus (MuLV) mixtures increased the expression of Fas antigen (Fas) during progression of the disease. However, the contribution of the Fas/Fas ligand (Fas L) system to the pathogenesis of MAIDS remained unknown. Here, we examined the susceptibility of C57BL/6 (B6) lpr/lpr mice, which has been reported to be defective for the expression of Fas, to MAIDS. We found that the Thy1.2- CD4T cells and Ig kappa dull B220+ cells, which are characteristic of MAIDS, increased after the inoculation of LP-BM5 MuLV in B6 lpr/lpr mice. B220+ TCR alpha beta T cells, unique to lupus prone mice, also increased in the B6 lpr/lpr mice after infection. CD4+ B220+ TCR alpha beta T cells increased profoundly among the B220+ TCR alpha beta T cells from LP-BM5 MuLV-infected B6 lpr/lpr mice, while the B220+ TCR alpha beta T cells observed in non-infected B6 lpr/lpr mice were largely of the CD4-CD8- phenotype. A DNA PCR analysis of the LP-BM5 MuLV-infected B6 lpr/lpr mice revealed the genome integration of defective LP-BM5 virus, further confirming that MAIDS is inducible to B6 lpr/lpr mice. LP-BM5 MuLV-infected lpr/lpr mice died within 3 months, while MAIDS-infected B6 +/+ mice usually died within 5 to 6 months, and B6 lpr/lpr mice not infected with LP-BM5 MuLV lived more than 6 months. Taken together, these results suggest that MAIDS is inducible independently with functional Fas expression and the possibility of accelerated progression of murine AIDS and lpr-associated autoimmune disease in B6 lpr/lpr mice infected with LP-BM5 MuLV.
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PMID:Accelerated progression of a murine retrovirus-induced immunodeficiency syndrome in Fas mutant C57BL/6 lpr/lpr mice. 913 Feb 34

It has been proposed that T cell activation may play an important role in the pathogenesis of systemic lupus erythematosus (SLE). In order to examine this hypothesis, we assessed the whole degree of clonal accumulation of T cells using RT-PCR and subsequent single-strand conformation polymorphism (SSCP) analysis. The analysis of the beta chain of the TCR revealed little clonotypic T cell expansion in the peripheral blood of lupus patients in remission, whereas in patients with active disease many dominant T cell clonal expansions without any distinct V beta bias were observed. The alteration in the number of T cell clones correlated well with disease activities, since these T cell expansions decreased as patients had improved. Furthermore, similar but more intense accumulations of T cell clones were found in pleural and pericardial effusions of patients with lupus serositis. Some of these identical expanded clonotypes were observed irrespective of the lesions and the times of sampling, and some of them were identical to those observed in the peripheral blood. These results suggest that the T cell clonal expansions correlate with the disease activities and that the expansion might contribute to the pathogenic lesion formation in SLE.
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PMID:Correlation of clonal T cell expansion with disease activity in systemic lupus erythematosus. 913 15

The role of the TCR-A and TCR-Vbeta genes in the genetic predisposition to SLE expression and anti-nuclear antibody (ANA) production were examined by linkage analysis in eighteen multiplex and forty-three simplex SLE families. All subjects were Caucasian. A significantly increased prevalence of positive ANAs in first-degree relatives of SLE patients from multiplex families was noticed compared to that of simplex families. Linkage between TCR-A/Vbeta genes and SLE expression and ANA production were analysed by affected sib-pair method. Results showed that the haplotypes identical by descent sharing TCR-A and TCR-Vbeta genes in the affected sib-pairs was not different from that expected (P = 0.93 and P = 0.74, respectively). There was no linkage between ANA positivity and TCR-A and TCR-Vbeta genes in ANA positive sib-pairs from both multiplex and simplex families. This study suggests that germline TCR-A and TCR-Vbeta gene loci confer no susceptibility to ANA and SLE expression.
Lupus 1997
PMID:Lack of linkage between anti-nuclear antibody or clinical features of systemic lupus erythematosus (SLE) and TCR-A/Vbeta loci in families of subjects with SLE. 925 11

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

Murine lupus in MRL mice has been strongly attributed to alphabeta T cell-dependent mechanisms. Non-alphabeta T cell-dependent mechanisms, such as gammadelta T cells, have been shown to drive antibody and autoantibody production, but they have not been considered capable of inducing end-organ disease. Here, we have expanded upon the findings of such previous work by examining the mechanism and extent of end-organ disease attainable via gammadelta T cells and/or non-alphabeta T cell-dependent mechanisms, assessing two prototypical lupus lesions, renal and skin disease, in TCR alpha -/- MRL mice that possessed either functional or defective Fas antigen (Fas + or lpr). Observed to 1 year of age, TCR alpha -/- MRL mice developed disease characterized by increased mortality, overt renal disease and skin lesions. While delayed in onset and/or reduced in severity compared with TCR alpha +/+ MRL/lpr animals, renal and skin lesions in alphabeta T cell-deficient animals were clearly increased in severity compared with age-matched control non-autoimmune mice. In contrast to TCR alpha +/+ MRL mice, whose disease reflected pan-isotype immune complex deposition with significant complement fixation, renal disease in TCR alpha -/- MRL animals reflected predominantly IgG1 immune complex deposition, with poor complement fixation. Thus, this study demonstrates conclusively that non-alphabeta T cell-dependent mechanisms can induce renal and skin injury in murine lupus, but at least in the kidney, only via humoral autoimmunity of a relatively non-pathological isotype which results in the delayed onset of end-organ damage.
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PMID:Pathogenesis of autoimmunity in alphabeta T cell-deficient lupus-prone mice. 947 69

Multiple immunoregulatory abnormalities characterize systemic lupus erythematosus. Abnormalities of the antigen receptor-mediated early signal transduction biochemical events underscore the diverse cellular aberrations. Fresh peripheral T and B cells and T cell lines from patients with systemic lupus erythematosus display increased Ca2+ responses that are preceded by enhanced antigen receptor-initiated cytosolic protein tyrosine phosphorylation. To further dissect the aberrant signaling events of lupus T cells we studied the early anti-CD3 mAb-induced signaling events in autoantigen-specific T cells from lupus patients. We report herein that a lupus snRNP-specific T cell clone, but not other T cells, displays increased Ca2+ fluxes and enhanced production of tyrosine-phosphorylated proteins following TCR/CD3 stimulation.
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PMID:Abnormal early TCR/CD3-mediated signaling events of a snRNP-autoreactive lupus T cell clone. 974 18

Lupus-prone mice develop a systemic autoimmune disease that is dependent upon the B cell help provided by autoreactive alphabeta CD4+ T cells. Since autoreactive T cells with high affinity for self peptides are normally deleted in the thymus, their presence in these mice suggests the possibility that intrathymic negative selection may be defective. Here, we directly compared central T cell tolerance in response to a conventional peptide Ag in lupus-prone MRL/MpJ mice with a nonautoimmune strain using an MHC class II-restricted TCR transgene. Our results did not demonstrate any defects after Ag exposure in the induction of intrathymic deletion of immature CD4+ CD8+ thymocytes, in TCR down-regulation, or in the number of apoptotic thymocytes in MRL/MpJ compared with nonautoimmune mice. Furthermore, we found that the lpr mutation had no influence upon the Ag-induced thymic deletion of immature thymocytes. These data support the notion that T cell autoreactivity in MRL/MpJ mice is caused by defects in peripheral control mechanisms.
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PMID:Central T cell tolerance in lupus-prone mice: influence of autoimmune background and the lpr mutation. 983 35

Previous reports have shown abnormal responses mediated via the TCR/CD3 pathway in T lymphocytes from systemic lupus erythematosus (SLE) patients. Recently, we and others have reported augmented TCR/CD3-mediated responses in lupus T cells. It is possible that the pattern of downstream biochemical signals triggered by TCR/CD3 ligation may be altered in T lymphocytes from patients with SLE, thus leading to abnormal distal cell responses. In this paper we have examined the phosphorylation of proteins on tyrosine residues in peripheral blood T lymphocytes from a group of SLE patients and controls. We found a lower frequency of constitutively tyrosine-phosphorylated 119- and 113-kDa substrates and an enhanced frequency of tyrosine-phosphorylated 66- and 25-kDa proteins in unstimulated cultures of SLE T lymphocytes, suggesting an altered pattern of tyrosine phosphorylation in T cells from patients in vivo. Additionally, the protein tyrosine phosphatase (PTP) activity of CD45 immunoprecipitates was lower in unstimulated lupus T cells and was enhanced after stimulation via the CD3 pathway in lupus but not control T lymphocytes. The present results seem to suggest abnormal regulation of in-vivo tyrosine phosphorylation in T cells from patients with SLE.
Lupus 1998
PMID:Abnormal pattern of tyrosine phosphorylation in unstimulated peripheral blood T lymphocytes from patients with systemic lupus erythematosus. 986 92

A select population of autoimmune T-helper (T(H)) cells drive the production of pathogenic anti-DNA autoantibodies in SLE. These T(H) cells recognize nucleosomal peptides that are processed and presented by the anti-DNA B cells that they help. The critical peptide epitopes for the T(H) cells reside in the core histones of the nucleosome particle. Remarkably, the nucleosomal peptide epitopes do not obey the rule of MHC-restriction; they can be promiscuously presented and recognized in the context of diverse MHC alleles. Such promiscuous antigens, called pantigens, are also recognized by autoimmune T cells, in a degenerate fashion, and this promiscuous recognition is conferred by the lupus TCR alpha chains. High-affinity interactions between the lupus TCRs and MHC-nucleosomal peptide complex due to reciprocally charged residues probably overcome the requirement for MHC restriction. These studies open up the possibility of developing 'universally' tolerogenic epitopes for therapy of lupus in humans despite their diversity of HLA alleles. The results also have profound implications regarding the selection of autoimmune T cells in the lupus-prone thymus and their expansion in the periphery. Furthermore, the T(H) cells, as well as B cells of lupus, have a regulatory defect causing markedly increased and prolonged expression of CD40 ligand (CD40L), which mediates abnormal co-stimulatory signals to autoimmune B cells, sustaining the production of pathogenic autoantibodies. These observations suggest a new paradigm for B cell hyperactivity in lupus and provide alternative targets for immunotherapy. Indeed, giving only three injections of anti-CD40L antibody in a one-week period to mice with manifest lupus selectively blocks the pathogenic autoimmune response and delays the development of lupus nephritis by one year (equivalent to three decades in humans). Thus, possession of promiscuous, high-affinity receptors and prolonged expression of CD40L by lupus T cells probably lowers activation threshold, leading to an autoimmune response against nucleosomes derived from apoptotic cells that are normally ignored by the immune system.
Lupus 1998
PMID:Production of pathogenic antibodies: cognate interactions between autoimmune T and B cells. 988 95

We have previously shown that female transgenic mice expressing IFN-gamma in the epidermis, under the control of the involucrin promoter, develop inflammatory skin disease and a form of murine lupus. To investigate the pathogenesis of this syndrome, we generated female IFN-gamma transgenic mice congenitally deficient in either alpha beta or gamma delta T cells. TCR delta-/- transgenics continued to produce antinuclear autoantibodies and to develop severe kidney lesions. In contrast, TCR beta-/- IFN-gamma transgenic mice failed to produce antinucleosome, anti-dsDNA, or antihistone autoantibodies, and kidney disease was abolished. Both alpha beta- and gamma delta-deficient transgenics continued to develop IFN-gamma-associated skin disease, lymphadenopathy, and splenomegaly. The data show that the autoantibody-mediated pathology of murine lupus in IFN-gamma transgenic mice is completely alpha beta T cell dependent and that gamma delta T cells cannot drive autoantibody production. These results imply that production of antinuclear autoantibodies in IFN-gamma transgenic animals is Ag driven, and we identified clusters of apoptotic cells in the epidermis of the mice as a possible source of self Ags. Our findings emphasize the relevance of this murine lupus model to the human disease.
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PMID:A central role for alpha beta T cells in the pathogenesis of murine lupus. 1035 71


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