UMLS:C0004364 - FACTA Search

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Query: UMLS:C0004364 (autoimmune disease)
24,845 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Susceptibility to Multiple Sclerosis (MS) and to other autoimmune diseases has been linked to genes encoded within the HLA complex. More recent evidence indicates linkage between MS and genes encoded within or closely linked to the T cell receptor (TCR) beta chain gene complex. However, not all available data are concordant. Discrepancies are most likely rooted in the complex nature of TCR and MHC genes and interactions of their products in initiating and sustaining autoimmune responses. An evaluation of linkage of TCR and MHC genes to autoimmune disease processes must take into account the nature of polymorphism in the gene complexes, the complexity of autoimmune diseases along with the multigenic nature of genetic predisposition. These factors create a situation in which simple genetic linkage may be the exception rather than the rule. The present report reviews data concerning TCR and MS linkage and enumerates the complexities that arise in evaluating results from such studies.
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PMID:Linkage between T cell receptor genes and susceptibility to multiple sclerosis: a complex issue. 129 Jul 47

To investigate the cause of generalized lymphadenopathy in case of systemic lupus erythematosus (SLE), we performed a molecular genetic analysis of lymph node, peripheral blood mononuclear cell and bone marrow specimens with T cell receptor and immunoglobulin gene probes. Oligoclonal T cell receptor rearrangements were detected in the lymph node cells. The oligoclonal T cell expansion observed is the first such example reported in SLE, and may be indicative of an immune response to specific antigenic challenge. Alternatively, these changes may represent the earliest phases of a malignant process. Molecular genetic investigations in autoimmune disease such as SLE can provide opportunities to enhance our understanding of the underlying condition, or reveal unexpected abnormalities requiring further assessment.
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PMID:Lymphadenopathy, oligoclonal T cell receptor rearrangement and systemic lupus erythematosus. 129 49

The genetic organization and protein structure of the T cell receptor (TCR)/CD3 complex are currently under investigation, and recent work has provided information about its assembly, expression and function. This article reviews what is currently known about the structure and assembly of the TCR/CD3 complex. The TCR chains are members of the immunoglobulin gene superfamily and are generated by combinatorial associations of V, J, D, and C genes. The presence of certain gene rearrangements within these chains has been associated with lymphoproliferative disorders, autoimmune disease and immunodeficiencies. TCR rearrangements can be useful in the diagnosis of lymphoproliferative disorders and in the identification of patients who will subsequently relapse, once in remission. With respect to autoimmune disease, the possibility now exists of immunotherapy with TCR designer polypeptides to prevent disease. In patients with primary immunodeficiencies secondary to defects in expression of the TCR, the possibility of somatic gene therapy now exists. As more information unfolds about the role that TCR gene rearrangements have in various diseases, new insights are gained into better diagnosis and treatment.
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PMID:The T cell receptor gene and its association with human diseases. 130 91

The restricted usage of particular T cell receptor beta chain genes in autoimmune disease was studied in LEW rats using T cell hybridomas specific for an immunodominant sequence of bovine retinal S-Ag, which induces experimental autoimmune uveoretinitis. T cell hybridomas from a pathogenic T cell line, R858, specific for residues 273-289 of bovine retinal S-Ag were analyzed in order to determine the contribution of their TCR V beta to self specificity as determined by recognition of the pathogenic epitope represented in the autologous rat S-Ag sequence. Six different, functional TCR rearrangements were expressed by the panel of hybridomas, including two distinct V beta 8.2 rearrangements and functional V beta 10, V beta 14, V beta 19 rearrangements, and an unidentified V beta gene. All hybridomas were Ag specific and reacted both to nonself-peptide derivatives as well as to self-peptide homologues. No unique pattern of peptide reactivity distinguished V beta 8.2+ hybridomas from V beta 8.2- hybridomas; all of the hybridomas were most reactive to the nonself sequences and reacted to self peptide with one to three orders of magnitude less sensitivity. However, all V beta 8.2+ hybridomas were much better responders overall and were activated by lower concentrations of all peptides than were V beta 8.2- hybridomas. Although V beta 8.2 gene usage is strongly associated with autoimmune pathology, these data show that in LEW rats several different TCR V beta genes are utilized in response to a short pathogenic sequence of this autoantigen and show that V beta 8.2 receptors are not uniquely self-reactive. However, the enhanced reactivity to Ag of V beta 8.2+ hybridomas relative to V beta 8.2- hybridomas specific for the same peptide may help explain the close association of V beta 8.2 TCR gene usage with pathogenicity found in autoimmune disease models.
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PMID:Multiple, autoreactive TCR V beta genes utilized in response to a small pathogenic peptide of an autoantigen in EAU. 132 Apr 62

Lewis rats immunized with T cell receptor (TCR) variable region peptide V beta 8 in complete Freund's adjuvant (CFA) were protected against experimental autoimmune encephalomyelitis (EAE) induced with myelin basic protein in CFA, although variable protection was also observed in rats injected with control peptide in CFA, or CFA alone. However, this adjuvant-mediated protection could be avoided by immunizing with TCR peptide in incomplete adjuvant (IFA). Clinical, but not histologic EAE was suppressed in rats given V beta 8 peptide in IFA, whereas control animals injected with V beta 14 peptide in IFA, or IFA alone developed severe clinical EAE. Anti-V beta 8 antibodies were present in the sera of all V beta 8-treated rats. These findings lend support to the hypothesis that autoimmune disease can be suppressed by inducing an immune response against the TCR-idiotope of autoreactive T cells.
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PMID:Studies of V beta 8 T cell receptor peptide treatment in experimental autoimmune encephalomyelitis. 137 25

Molecular genetic techniques are being widely applied to the study of autoimmune diseases. Major advances have been made in diabetes, rheumatoid arthritis and coeliac disease. Work on experimental models of autoimmune uveitis suggests that similar advances will follow in this field. The application of molecular genetics to the study of immunology has lead to great advances in our understanding of the anatomy of antigen recognition. This work has lead to the identification of some of the structural determinants of antigen binding by MHC molecules and is helping to explain some MHC-disease associations. More recently, molecular studies of the T cell receptor have characterized patterns of T cell receptor expression in humans and have lead to the identification of regions of the T cell receptor critical for antigen recognition. These techniques will hopefully provide insights into the nature of autoimmunity and permit the identification of targets for disease specific immunotherapies. This review describes attempts to corelate MHC structure and function in the context of autoimmunity and discusses some of the strategies for analyzing T cell receptor usage in autoimmune disease.
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PMID:Molecular aspects of autoimmunity: a review. 138 42

Mice homozygous for the gld (generalized lymphoproliferative disease) mutation developed systemic autoimmune disease and severe lymphadenopathy due to an age-related accumulation in the peripheral lymphoid organs of polyclonal T cells bearing a unique phenotype (CD4-CD8-TCR alpha beta+B220+). These T cells overexpress T cell receptor (TcR) alpha beta chain RNA, proto-oncogenes c-myb and fyn, and proliferate poorly in response to TcR-mediated stimulation. The origin of these T cells is poorly understood. To study the influence of a functionally rearranged TcR beta chain on the T cell developmental abnormality of the gld mutation and autoimmunity, we have backcrossed TcR V beta 8.1-transgenic mice to C3H-gld/gld to homozygosity (transgenic gld mice). In transgenic gld mice, lymphadenopathy was markedly inhibited and the accumulation of CD4-CD8- T cells did not occur, although the remaining T cells overexpressed c-myb and proliferated poorly in response to TcR occupancy. These features indicate that the pattern of proto-oncogene expression and abnormal function persist in phenotypically normal T cells in transgenic gld mice, and that these characteristics can be dissociated from the accumulation of CD4-CD8- T cells. The hypergammaglobulinemia and anti-double-stranded DNA (anti-dsDNA) antibody production was partially improved in transgenic gld mice, supporting the critical role of T cells in abnormal B cell activation described in autoimmunity-prone mice. To investigate further the mechanisms underlying the inhibition of CD4-CD8- T cell accumulation in transgenic gld mice, the fetal ontogeny of T cells in transgenic mice was compared with that of non-transgenic mice. In transgenic thymus, development of TcR alpha beta+ cells was accelerated as detected by earlier expression of CD4, CD8 and TcR in fetal thymus. In contrast, the number of TcR gamma delta+ cells was reduced. We suggest that altered T cell development in transgenic mice directly or indirectly inhibits the accumulation of abnormal T cells in gld mice.
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PMID:Inhibition of abnormal T cell development and autoimmunity in gld mice by transgenic T cell receptor beta chain. 138 74

MRL-MP-lpr/lpr mice are afflicted by a severe systemic autoimmune disease that is aggravated by the lpr mutation resulting in the accumulation of phenotypically abnormal lpr cells (CD3+CD4-CD8-) in all lymphoid issues including hyperplastic lymph nodes. Given that products of the T cell receptor V beta 8 gene family are overrepresented among lpr cells, different schedules aimed at selectively decreasing the frequency of lpr cells were designed. First, continuous administration of the monoclonal antibody F23.1 (specific for V beta 8 products) resulted in a significant depletion of V beta 8+ cells and prevented the manifestation of lymph accumulation at the same time as it reduced the serological, clinical, and histopathological signs of autoimmune disease. Along the same line, administration of either F23.1 or two different anti-F23.1 anti-idiotypic antibodies to MRL/Mp-lpr/lpr mothers elicited, in the offspring, the production of antibodies sharing a recurrent idiotype with F23.1 and resulted in long-term amelioration of autoimmunity and lymphadenopathy. Thus, a strategy aimed at specifically reducing the frequency of a subset of lpr cells proved successful in mitigating the autoimmune process.
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PMID:Attenuation of autoimmune disease and lymphocyte accumulation in MRL/lpr mice by treatment with anti-V beta 8 antibodies. 138 16

In mice, the two distinct autosomal recessive genes lpr and gld can induce a syndrome characterized by autoantibody formation and the progressive accumulation of an unusual CD4-CD8- T cell population in peripheral lymphoid tissue. This phenotype does not precisely mirror any human disease. In this report we describe two patients with a progressive lymphoproliferative disorder associated with autoimmunity. The peripheral blood and lymph nodes of these patients contained large numbers of an unusual CD4-CD8- T cell population. These CD4-CD8- T cells express surface markers characteristic of mature peripheral blood T cells (CD3, CD2, CD5), express the alpha/beta form of the T cell receptor, and do not express surface markers characteristic of immature thymocytes (CD1) or NK cells (CD16, CD56). Functionally, these cells exhibited deficient proliferation and lymphokine production upon stimulation with mitogenic antibodies to CD3 or CD2. Both proliferation and lymphokine production could be augmented by co-stimulation with an antibody directed at the CD28 determinant. The clinical and immunological features of this syndrome resemble the lymphoproliferative/autoimmune disease seen in lpr and gld mice.
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PMID:A novel lymphoproliferative/autoimmune syndrome resembling murine lpr/gld disease. 138 9

In normal mice neonatal injection of staphylococcal enterotoxin B (SEB) induces tolerance in T cells that express reactive T cell receptor (TCR) V beta regions. To determine if a T cell neonatal defect was present in MRL-lpr/lpr mice, 20 micrograms of SEB was injected intraperitoneally every other day into V beta 8.2 TCR transgenic and nontransgenic MRL(-)+/+ and MRL-lpr/lpr mice from birth to 2 wk of age. At 2 wk of age, V beta 8+ T cells were depleted, and SEB reactivity was lost, in spleen, lymph node, and thymus. These effects were equivalent in +/+ and lpr/lpr SEB-tolerized mice. However, MRL-lpr/lpr mice failed to maintain neonatal tolerance. By 4 wk of age, there was a dramatic increase in T cells expressing V beta 8.2 in the peripheral lymph nodes of MRL-lpr/lpr mice but not MRL(-)+/+ mice. In vitro stimulation with SEB or TCR crosslinking revealed a total loss of neonatal tolerance 2 wk after cessation of SEB treatment in lpr/lpr mice, but not +/+ mice. The time-course of recovery of V beta 8+ T cells and reactivity to SEB and TCR crosslinking in the thymus of MRL-lpr/lpr mice was similar to that in the lymph node. Thymectomy at 2 wk of age eliminated tolerance loss in lymph nodes of MRL-lpr/lpr mice at 4 wk of age, indicating that loss of peripheral tolerance was due to the emigration of untolerized T cells from the thymus. Challenge of neonatally tolerized MRL-lpr/lpr mice with SEB (100 micrograms, i.p.) at 8 wk of age resulted in a dramatic onset of T cell-mediated autoimmune disease characterized by 30% weight loss and 60% morality. This indicated that loss of tolerance to SEB also occurred in vivo. In contrast, neonatally tolerized MRL(-)+/+ mice remained totally unresponsive to SEB challenge and did not undergo any detectable weight loss. These results suggest that there is normal induction of neonatal tolerance to SEB in lpr/lpr mice, but that tolerance is not maintained after the tolerizing antigen is removed. This loss of neonatal tolerance can lead to severe weight loss and death on exposure to the tolerizing antigen later in life.
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PMID:Defective maintenance of T cell tolerance to a superantigen in MRL-lpr/lpr mice. 140 52

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