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)

There are a number of mechanisms which cooperate to produce and maintain T-cell tolerance. First, and perhaps most important, is the clonal deletion in the thymus of T cells with high affinity for self antigens. However, to ensure that a wide repertoire of T cells is available in the periphery to combat foreign antigens, the threshold of clonal deletion may be set low enough so that T cells whose TCR's have sub-threshold affinity for self antigens mature and migrate to the periphery. T cells which recognize self antigen-derived peptides not expressed or presented in the thymus will also fail to be deleted. For those self-reactive T cells which are not deleted in the thymus, other mechanisms may produce tolerance, including an undefined alteration of signalling pathways which produces clonal anergy, and lowering the avidity of the TCR for its ligand by downregulating coreceptor and accessory molecules. Active suppression of T-cell responses in another well-described phenomenon whose mechanism is undefined. From our observations with the model systems discussed here, we have observed three distinct mechanisms by which T-cell tolerance can be circumvented, allowing autoimmune phenomena to occur. These mechanisms may have relevance for different types of autoimmune diseases seen in humans. In gld mice, the autoimmune disease seems to be related to a global defect in T-cell differentiation and function, which allows for the expansion of autoimmune B cells. While we showed that clonal deletion of V beta-bearing T cells is appropriate in certain cases, aberrant lymphokine secretion by the abnormal T cells or disruption of immune system regulation are most probably responsible for allowing autoantibody production. While human lupus erythematosis shares much of the pathology of lpr and gld mice, there is no expansion of T cells with a similar phenotype in human lupus. There are environmental factors which must play a role in the development of human lupus, since the incidence of the disease does not follow an absolute genetic pattern. The escape from clonal deletion and subsequent reactivation of autoimmune T cells which we observed in V beta 8.1 TCR-transgenic mice can be a model for human autoimmune diseases such as multiple sclerosis and type I diabetes, in which T cells are directed against a specific autoantigen. According to this model, susceptibility loci for autoimmune disease such as the MHC would function by producing different repertoires of T cells which in some cases could gain autoreactivity following activation.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Mechanisms of autoimmunity in the context of T-cell tolerance: insights from natural and transgenic animal model systems. 215 Apr 1

TCR beta chain gene expression of individual T cell clones that share the same MHC class II restriction and similar fine specificity for the encephalitogenic NH2 terminus of the autoantigen myelin basic protein (MBP) has been examined. TCR V beta expression was examined by FACS analysis with mAbs specific for the V beta 8 subfamily of TCR beta chain genes. 14 of 18 (78%) NH2-terminal MBP-specific clones examined express a member of the TCR V beta 8 subfamily. Southern analysis was used to identify which member(s) of the TCR V beta 8 subfamily is expressed by these clones. Each of four clones examined uses V beta 8.2, though two different V beta 8.2-J beta 2 combinations were identified. Our findings indicate that there is restricted TCR V beta usage in the autoimmune T cell response to the dominant encephalitogenic NH2-terminal epitope of the MBP. The use of an mAb to the antigen-specific TCR in the prevention of T cell-mediated autoimmune disease has been investigated. Our results demonstrate that in vivo administration of a TCR V beta 8-specific mAb prevents induction of autoimmune encephalomyelitis.
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PMID:Predominant expression of a T cell receptor V beta gene subfamily in autoimmune encephalomyelitis. 245 56

Immunizing Lewis rats with guinea pig myelin basic protein (MBP) yielded an encephalitogen specific, Ia-restricted, rat-mouse T cell hybridoma 5.10, which was used to establish a clonotypic mAb (10.18) that binds to and precipitates the rat TCR. By two-dimensional gel electrophoresis, the rat TCR was shown to consist of two disulfide-linked peptide chains with mol wt of 48,000 and 39,000. 10.18 binds the majority of cells in MBP-specific T cell lines that are capable of transferring experimental allergic encephalomyelitis (EAE) to Lewis rat recipients, but does not bind to either a purified protein derivative of tuberculin-specific cell line or an OVA-specific line. Furthermore, soluble 10.18 can block antigen-specific stimulation of hybridoma 5.10 but cannot control hybridomas, while immobilized 10.18 stimulates 5.10, but cannot control the hybrids. Though 10.18+ cells are very rare in normal rats, increase of 10.18+ cells is observed in MBP-primed paralyzed rats. Finally, when 10.18 is injected into MBP-primed Lewis rats, EAE is abrogated. We have thus characterized EAE as a "mono-idiotypic" autoimmune disease.
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PMID:Protection from experimental allergic encephalomyelitis conferred by a monoclonal antibody directed against a shared idiotype on rat T cell receptors specific for myelin basic protein. 246 7

Prospects for specific immune intervention in T cell-mediated autoimmune disease via anti-idiotypic regulation depend on the degree of diversity of the responder cell antigen receptor repertoire. A highly heterogenous response against self epitopes offers little chance for such regulation. We report here that the Lewis rat autoimmune disease experimental allergic encephalomyelitis, generally considered to be a model of human multiple sclerosis, is caused by T cells that use a limited set of TCR V genes. We have cloned the rat TCR alpha and beta chain cDNAs from the Lewis rat x mouse T cell hybridoma 510, which retains the rat specificity for the encephalitogenic determinant of myelin basic protein (MBP). Using Northern blot analysis of T cell RNA with the cloned V region probes, we have found a specific, and near perfect, correlation between expression of TCR message hybridizing to the V alpha 510 and VB510 probes and specificity for the encephalitogenic determinant of MBP in both T cell hybridomas and encephalitogenic T cell clones. This restricted V gene usage provides a basis for observed idiotypic regulation of auto-reactive T cells, and possible therapy for autoimmune disease. A curious and unexplained observation is that the Lewis rat V alpha/V beta combination that dominates the encephalitogenic response to the 68-88 peptide of MBP is precisely the same V alpha/V beta combination used by the B10.PL mouse response to the encephalitogenic response to the 1-9 peptide of MBP.
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PMID:Both rat and mouse T cell receptors specific for the encephalitogenic determinant of myelin basic protein use similar V alpha and V beta chain genes even though the major histocompatibility complex and encephalitogenic determinants being recognized are different. 246 9

It is generally accepted that human Th cells express the surface glycoproteins CD4 and alpha/beta-chain heterodimer of the TCR whereas cytotoxic/suppressor cells are usually CD8+ and alpha/beta TCR+. Another minor set of T cells found in the periphery are CD4-/CD8- (double negative) and express the gamma/delta TCR; these cells can manifest MHC-restricted or nonrestricted cytotoxicity but no helper function. Herein we describe the existence of an unusual Th population in the peripheral blood of humans that are CD4-/CD8- and alpha/beta TCR+. These double-negative Th were markedly expanded in patients with the autoimmune disease SLE and along with CD4+ Th, they induced production of the pathogenic variety of anti-DNA autoantibodies that are IgG in class and cationic in charge. The cationic anti-DNA antibodies induced by the Th were markedly restricted in spectrotype indicating that an oligoclonal population of B cells were committed to produce the pathogenic autoantibodies in active lupus. IL-2-dependent T cell lines were also derived from the patients with active lupus nephritis but the majority of those T cell lines lacked pathogenic autoantibody-inducing capability. Only 4 out of 42 T cell lines from a lupus patient could induce the production of cationic IgG class anti-DNA autoantibodies. The phenotypes of the pathogenic autoantibody-inducing Th lines were similar to the Th subsets: CD4+, alpha/beta TCR+ or CD4-/CD8-, alpha/beta TCR+. These studies suggest that production of pathogenic autoantibodies in human lupus is mediated by mechanisms that are distinct from the generalized, nonspecific polyclonal B cell hyperactivity that leads to excessive production of natural autoantibodies.
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PMID:T cell receptor alpha/beta expressing double-negative (CD4-/CD8-) and CD4+ T helper cells in humans augment the production of pathogenic anti-DNA autoantibodies associated with lupus nephritis. 252 44

We have reviewed the impact of cellular and molecular biology on our understanding of the immune system and thyroid autoimmune disease and presented the evidence that MHC, TCR and immunoglobulin genes are involved in susceptibility to such disease. At the level of the target thyroid epithelial cell, the identification of the genes for Tg and TPO (the microsomal antigen) using recombinant DNA techniques are evidence of dramatic progress. On the humoral side of the immune response, the investigation of restricted clonality is still hampered by the technical difficulties in obtaining immortal B cell lines producing thyroid antigen specific high affinity IgG antibodies, although the advent of tools to sequence the immunoglobulin V genes from small quantities of DNA will overcome this difficulty (e.g. by polymerase chain reactions). T cells have also begun to be characterized both phenotypically, thanks to the advent of ever better characterized monoclonal antibodies, and functionally at the clonal level, thanks to refinement of cell culture techniques. Future studies in this area will also need to focus on cell immortalization and maintenance of antigen-specific responses although, major strides in the direct sequencing of the TCR are taking place and investigation of T cell receptors in antigen-specific T cells should be feasible. MHC associations with thyroid autoimmune disease, as studied by analysis of RFLP patterns, have not significantly improved already established serological HLA associations and direct MHC gene sequencing will be required. Analysis of the organ-specific regulation of MHC class II gene expression has led to a better understanding of the functional role of MHC class II genes in thyroid autoimmune disease at the target cell level. Such studies have pointed out important local immune responses within the thyroid gland but have not yet provided the initiating factor or factors for human autoimmune thyroid disease in genetically susceptible individuals.
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PMID:Human autoimmune thyroid disease: cellular and molecular aspects. 307 47

Activated T-cells are believed to play a critical role in the pathogenesis of autoimmune disease. In experimental allergic encephalomyelitis (EAE), an animal model resembling human multiple sclerosis (MS), there is evidence that T cells reactive to myelin basic protein mediate an inflammatory response within the central nervous system leading to demyelination. Furthermore, encephalitogenic T cells express TCR with highly restricted V gene usage and consequently specific forms of immunotherapy directed against V gene products have been successful in preventing and treating EAE. These findings prompted studies into the analysis of TCR repertoire expression in human autoimmune diseases in an attempt to identify the TCR usage of autoreactive and potentially pathogenic T cells. However, this has proved difficult as the autoantigens that drive the T cell response in most human autoimmune disorders are unknown. This review examines the data that have accumulated over the past few years on TCR usage in human autoimmune diseases and is focused largely on rheumatoid arthritis and MS.
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PMID:T cell receptor usage in autoimmune disease. 749 65

CD5+ B lymphocytes and TCR gamma-delta T lymphocytes, phenotypes implicated in the pathogenesis of autoimmune disease, were isolated from the vitreous in a case of acute sympathetic ophthalmitis. These cells were obtained using a method which allows the selective maintainance in vitro of in vivo activated T lymphocytes. Dual colour flow cytometry showed that after 3 days culture in IL-2 containing medium 61% of cells were CD5/CD19 + ve and 41% CD3/TCR gamma delta + ve. Of the total CD3 + ve population, 15% were gamma/delta negative. These cells formed a population which also responded in a proliferation assay to retinal antigens. Histologically the eye showed a marked mononuclear cell infiltration of the retina, ciliary body and choroid. Granulomatous lesions within the choroid contained lymphocytes, plasma cells and multinucleate giant cells. Immunocytochemistry showed lymphocyte populations to be predominantly CD2 + ve CD3 + ve T lymphocytes of the CD4 sub-set. Distribution of monocytes/macrophages throughout the lesions and restriction of B-lymphocytes to granulomata were all consistent with a DTH type reaction. Despite immunosuppressive therapy, the expression of activation antigens HLA-DR and ICAM-1 on infiltrating and resident ocular tissue cells was high, although IL-2 receptor (CD25) expression was virtually absent. Flow cytometric analysis of peripheral blood cells prior to treatment with Cyclosporin-A showed systemic activation of lymphocytes, with high levels of HLA-DR and CD25 expression and a raised CD4/CD8 ratio.
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PMID:Retinal antigen specific lymphocytes, TCR-gamma delta T cells and CD5+ B cells cultured from the vitreous in acute sympathetic ophthalmitis. 751 Oct 4

An immune response directed against type II collagen (CII) has been reported in several autoimmune diseases including the animal models of collagen-induced arthritis (CIA) and collagen-induced autoimmune ear disease (CIAED). In this communication, we have found that T cells from type II collagen-immunized DBA/1-lac could transfer auricular chondritis to naive mice. The T cells from type II collagen-immunized H-2r and H-2q mice recognize different epitopes from the CB11 peptide of CII. The CII-specific T cells from H-2q background mice recognize peptide residues p121-147 (P1) but do not respond to residues p211-247 (P2). The T cells of H-2r mice immunized with CII respond better to P2 rather than P1. By altering certain amino acids within these epitopes, the response of CII-specific TCR to antigen has been increased or abolished. Our results suggest that the lysine residues at positions 129, 141, and 147 in P1, the arginine residue at position 227, and glutamic acid at position 230 in P2 might play an important role in the trimolecular interaction. Ten clonally distinct T cell hybridomas specific for CII have been established from H-2r B10.RIII mice and the beta chains of their TCR have been analyzed. Three subfamilies, V beta 1, V beta 6, and V beta 8, were utilized with dominant expression of V beta 8 (60%). This is quite similar to the pattern found in type II collagen-induced arthritis in H-2q mice. This preferential use of V beta 8 in CIAED implies that an immunotherapy may make it possible to control this autoimmune disease, even in a MHC-diverse situation.
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PMID:Epitope specificity and T cell receptor usage in type II collagen induced autoimmune ear disease. 751 52

New strategies applied in the treatment of experimental autoimmune disease models involve blocking or modulation of MHC-peptide-TCR interactions either at the level of peptide-MHC interaction or, alternatively, at the level of T cell recognition. In order to identify useful competitor peptides one must be able to assess peptide-MHC interactions. Several well described autoimmune disease models exist in the Lewis rat and thus this particular rat strain provides a good model system to study the effect of competitor peptides. So far no information has been available on the peptide binding characteristics of the Lewis rat MHC class II RT1.B1 molecule. We have now developed a biochemical binding assay which enables competition studies in which the relative MHC binding affinity of a set of non-labelled peptides can be assessed while employing detection of biotinylated marker peptides by chemiluminescence. The assay is sensitive and specific. We have used this assay to determine the binding characteristics of several disease associated T cell determinants and their sequence analogues in the Lewis rat. Notably, most of the autoimmune disease associated peptide sequences tested were found to be intermediate to poor binders. Single amino acid substitutions at defined positions were sufficient to turn certain peptides into good binders. These results are relevant to the design of competitor peptides in the treatment of experimental autoimmune diseases.
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PMID:Direct binding of autoimmune disease related T cell epitopes to purified Lewis rat MHC class II molecules. 752 68

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