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)

Experimental autoimmune encephalomyelitis (EAE) is an animal autoimmune disease mediated by CD4+ T cells. Analysis of TCR expression revealed that limited TCR elements (V beta 8.2, V alpha 2 or 4) were utilized by myelin basic protein (MBP) specific T cells in mice with H-2u haplotype and Lewis rats. The usage of a particular beta chain complementarity determining region 3 (CDR3) motif has also been shown. However, it remains unclear to what extent these observations can be extrapolated. Here we studied the TCR sequences of MBP 89-101/I-A(s) specific T cell clones derived from SJL/J mice, using the polymerase chain reaction on reverse transcribed mRNA. Although the V beta usage was less restricted than in H-2u mice, they predominantly utilized V beta 17a and expressed LGG or related motifs in the V beta-D beta-J beta junctions. Furthermore, a single alpha chain rearrangement between V alpha 1.1 and J alpha BBM142 with no N region diversity was preferentially used. Concordantly, immunization with a peptide corresponding to the alpha chain CDR3 was found to significantly alter the clinical course of EAE. Comparison of the published TCR junctional regions demonstrates that the CDR3 motifs (LGG in beta chain, CA*R*NY motif in alpha chains) are expressed by other encephalitogenic clones. Notably, the CA*R*NY was conserved in PL/J mice clones that recognize a distinct MBP-MHC determinant. It suggests that an antigen-independent mechanism may contribute to conserving the alpha chain motif. The implications of these observations are discussed.
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PMID:Analysis of T cell antigen receptors of myelin basic protein specific T cells in SJL/J mice demonstrates an alpha chain CDR3 motif associated with encephalitogenic T cells. 752 42

Multiple sclerosis is assumed to be an autoimmune disease mediated by T cells specific for myelin protein, such as, myelin basic protein (MBP) and PLP. Several groups reported that PLP-specific T cells are activated in the cerebrospinal fluid and, to a lesser extent, in the peripheral blood of the patients. We identified seven T cell epitopes within PLP residue 85-159. The T cell responses to these epitopes were higher in MS than in healthy subjects. PLP 95-116 and 105-124 specific T cells were more frequently established from DR2 MS than from non-DR2 MS, indicating that the DR2 restricted T cells recognizing these determinants are involved in the pathogenesis of MS. It is found PLP-specific T cells preferentially use V beta 5 and V beta 2 families though the usage is not exclusive. TCR beta chain complementary determining region 3 (CDR3) amino acid motifs of some PLP-specific T cells were homologous to those of MS lesion T cells, so it is likely that PLP-specific T cells infiltrate MS lesions. To our surprise, the CDR3 motifs of PLP-specific clones resemble those of MBP-specific clones. According to these facts, some antigen-independent pressure might give a common structure to T cells involved in MS.
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PMID:[T cell immunity to proteolipid protein (PLP) in multiple sclerosis (MS): identification of DR2-associated PLP determinants and conserved TCR CDR3 motifs]. 752 67

Analysis of HLA class II transgenic mice has progressed in recent years from analysis of single chain HLA class II transgenes with expression of mixed mouse/human heterodimers to double transgenic mice expressing normal human heterodimers. Previous studies have used either HLA transgenic mice in which there is a species-matched interaction with CD4 or mice which lack this interaction. Since both systems are reported to generate HLA-restricted responses, the matter of the requirement for species-matched CD4 remains unclear. We have generated triple transgenic mice expressing three human transgenes, DRA, DRB, and CD4, and compared HLA-restricted responses to peptide between human-CD4+ (Hu-CD4+) and Hu-CD4- littermates. We saw no difference between Hu-CD4+ and Hu-CD4- groups, supporting the notion that for some responses at least the requirement for species-matched CD4 may not be absolute. Evidence for positive selection of mouse T cell receptors in HLA-DR transgenic mice came both from the acquisition of new, HLA-restricted responses to various peptides and from an increased frequency of T cells using the TCR V beta 4 gene segment. An important goal with respect to the analysis of function in HLA transgenic mice is the clarification of mechanisms which underpin the recognition of self-antigens in human autoimmune disease. As a first step towards 'humanized' disease models in HLA transgenic mice, we analyzed the responses of HLA-DR transgenic mice to the human MPB 139-154 peptide which has been implicated as an epitope recognized by T cells of multiple sclerosis patients. We obtained T cell responses to this epitope in transgenic mice but not in nontransgenic controls. This study suggests that HLA transgenic mice will be valuable in the analysis of HLA-restricted T cell epitopes implicated in human disease and possibly in the design of new disease models.
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PMID:The T cell response of HLA-DR transgenic mice to human myelin basic protein and other antigens in the presence and absence of human CD4. 753 84

Several stimuli induce mature T cells to undergo apoptosis or programmed cell death (PCD) including specific Ag. We have demonstrated previously that Ag induces the death of encephalitogenic T cells in vitro and deletion in vivo, leading to amelioration of autoimmune encephalomyelitis. We have now examined whether activated, myelin basic protein (MBP)-specific human T cells may be eliminated by Ag-induced PCD. We demonstrate that activated MBP-specific T cell lines (TCL) undergo the classic nuclear morphologic changes and DNA fragmentation characteristic of apoptosis when given a TCR challenge. We found evidence that two mechanisms led to apoptosis: a propriocidal mechanism that was highly Ag-specific and dependent on the dose of exogenously added rIL-2, and a cytolytic mechanism in which MBP-specific TCL lysed B cell targets and engaged in considerable "fratricidal" cytolysis of other MBP-specific T cells. These two pathways leading to MBP-specific apoptotic death could be distinguished by their glucocorticoid sensitivity. Glucocorticoid treatment significantly blocked MBP-induced propriocidal apoptosis but had no effect on T cell cytolysis of B cell targets. Although it has been proposed that autoimmune disease could result from the failure of normal deletional mechanisms, this preliminary survey of MBP-reactive mature TCL from multiple sclerosis patients revealed that such cells are highly susceptible to TCR-induced PCD and comparable with TCL from normal subjects. Thus, therapeutic strategies based on Ag-induced PCD of T lymphocytes may be feasible in man.
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PMID:Two mechanisms of antigen-specific apoptosis of myelin basic protein (MBP)-specific T lymphocytes derived from multiple sclerosis patients and normal individuals. 753 45

Experimental autoimmune encephalomyelitis (EAE) is an autoimmune disease induced by immunization with myelin basic protein (MBP), proteolipid protein, or encephalitogenic peptides from these myelin components. EAE resembles basic protein multiple sclerosis in some of its clinical and histologic features, and serves as an experimental model for this and other autoimmune diseases. In this study, we examine i.v. peptide therapy of EAE in detail, and show that repeated i.v. injections of MBP peptides effectively treat EAE in (PLJxSJL)F1 mice. In this study, administration of the immunodominant epitope (MBP Ac1-11) prevents MBP-induced disease, whereas the subdominant epitope MBP 31-47 is neither required nor sufficient. Intravenous administration of substituted MBP peptide analogues is also effective in treating EAE, provided the peptide side chains presumed to be involved in TCR contact and MHC binding are preserved. A substituted MBP peptide analogue that forms long-lived peptide-MHC complexes in vivo is more effective than the unmodified MBP peptide. Lower doses of the substituted peptide analogue are effective, and the effect is longer lasting than treatment with the unmodified peptide. Clinical signs of EAE are reversed by injection of the substituted peptide during the acute phase of disease. Moreover, treatment of mice in the remission phase of EAE results in a dramatically reduced incidence of relapse. In summary, we have shown that EAE can be reversed after onset and treated during remission with an MBP peptide analogue that has been modified for improved therapeutic potency.
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PMID:Reversal of acute experimental autoimmune encephalomyelitis and prevention of relapses by treatment with a myelin basic protein peptide analogue modified to form long-lived peptide-MHC complexes. 754 83

Recent studies have documented incomplete TCR V alpha-chain allelic exclusion and dual V alpha-bearing T cells. Herein, we show that V beta allelic exclusion is also incomplete, since a significant proportion of peripheral T cells express dual V beta in both TCR transgenic and normal mice. Studies in TCR transgenic mice indicated that although a small proportion of T cells escaped allelic exclusion in the thymus, dual V beta-expressing cells expanded dramatically in the periphery with age, and such expanded cells had an activated phenotype. Although not as pronounced, age-related increases in dual V beta-bearing cells were also observed in normal mice. These findings may have important implications for TCR selection and specificity, age-related repertoire changes, and autoimmune disease pathogenesis.
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PMID:Incomplete T cell receptor V beta allelic exclusion and dual V beta-expressing cells. 756 Oct 23

In experimental autoimmune encephalomyelitis (EAE) induced with myelin proteolipid protein (PLP) peptide 139-151, we have previously shown that the disease is mediated by Th1 cells, which recognize tryptophan 144 as the primary TCR contact point. Here we describe an altered peptide ligand (APL), generated by a single amino acid substitution (tryptophan to glutamine) at position 144 (Q144), which inhibits the development of EAE induced with the native PLP 139-151 peptide (W144). We show that the APL induces T cells that are cross-reactive with the native peptide and that these cells produce Th2 (IL-4 and IL-10) and Th0 (IFN gamma and IL-10) cytokines. Adoptive transfer of T cell lines generated with the APL confer protection from EAE. These data show that changing a single amino acid in an antigenic peptide can significantly influence T cell differentiation and suggest that immune deviation may be one of the mechanisms by which APLs can inhibit an autoimmune disease.
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PMID:An altered peptide ligand mediates immune deviation and prevents autoimmune encephalomyelitis. 758 31

Syngeneic bone marrow transplantation following lethal X-irradiation and subsequent administration of cyclosporin A (CsA) results after cessation of CsA treatment in an autoimmune disease which is thymus dependent and resembles graft-versus-host disease. The chronic dermal changes of this experimental autoimmune model have similarities with human scleroderma in terms of skin histopathology. In this study we evaluated the possible role of different effector leukocytes in the rat model of CsA-induced autoimmunity (CsA-AI) by examining the skin by immunohistology. In the acute phase both CD4+ and CD8+ TCR alpha beta + T-cells together with activated ED1+ macrophages and class II MHC-upregulated keratinocytes were seen in the epidermis; no selective use of TCR V beta was observed. Few TCR alpha beta + T-cells were seen in the dermis where CD4+ ED2+ macrophages were abundant. With the change from acute to chronic, scleroderma-like lesions the CD4+ T-cells disappeared from the epidermis and the TCR alpha beta + cells were now almost exclusively CD8+; both class II MHC-upregulated keratinocytes and macrophages persisted. Changes in TCR gamma delta + T-cells were not observed in the acute or chronic phase. As a possible effector mechanism CD4+ T-cells in the acute-phase of CsA-AI may cause the observed activation of macrophages and keratinocytes. Furthermore, CD4+ T-cells may be necessary for the homing of the CD8+ T-cells in the epidermis. Especially the activated keratinocytes are suspected of being the target cells which may perpetuate the ongoing autoimmune response into the chronic phase as established by CD8+ T-cells only.
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PMID:Cutaneous immunopathology of cyclosporin-A-induced autoimmunity in the rat. 758 42

A recombinant TCR domain, derived from a T cell hybridoma that recognizes an immunodominant type II collagen epitope, was used to vaccinate against collagen-induced arthritis in DBA/1 (H-2q) mice. The recombinant TCR domain comprises VA11.1-JA17 gene segments and is representative of the V alpha domains expressed by oligoclonal T cells in this disease model. Vaccination of mice 28 days before type II collagen (CII) immunization with this V alpha 11.1 domain resulted in a significantly decreased incidence of arthritis in DBA/1 mice, in contrast to vaccination with a V alpha 4-J alpha 40 domain derived from an encephalitogenic T cell hybridoma specific for MBP. Disease blockade is accompanied by a reduction in T and B cell responses to both the immunogen bovine CII and the autoantigen murine CII. V alpha 4 and V alpha 11.1 domains were found to be highly immunogenic in DBA/1 mice, inducing both T cell proliferation and the production of V alpha specific Abs, indicating that the vaccination effect of V alpha 11.1 is specific. This is the first report of V alpha-directed immunotherapy in an autoimmune disease model and demonstrates the potential use of recombinant TCR vaccines in the treatment of autoimmune diseases that involve oligoclonal autoreactive T cells.
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PMID:Vaccination with a recombinant V alpha domain of a TCR prevents the development of collagen-induced arthritis. 759 14

RIP-Kb mice, which express H-2Kb (Kb) molecules on their pancreatic beta cells, were used to examine the requirements for induction of autoimmune diabetes caused by CD8+ T cells. Previous studies showed that when these mice were crossed to mice expressing a Kb-specific TCR transgene, those CD8+ cells expressing the highest density of the transgenic TCR (presumably the highest avidity cells) were deleted intrathymically due to aberrant expression of Kb at this site. The remaining low avidity cells ignored Kb-bearing beta cells, even after priming, but were able to cause autoimmune diabetes when supplied with Il-2. To examine the properties of high avidity autoreactive CD8+ T cells, the thymic compartment of RIP-Kb mice was replaced with normal tissue to enable the maturation of CD8+ cells expressing the highest density of the transgenic TCR. These high avidity cells generally ignored Kb-expressing beta cells, but became autoaggressive after priming. Importantly, analysis of islet infiltration by CD8+ T cells revealed the presence of infiltrating cells in all mice examined within 3 wk of priming, but such infiltration was not usually apparent at later time points. In some cases, multiple primings were necessary for full development of autoimmunity. This implied that beta cells could act as transient targets for CD8+ T cell attack but could not sustain the stimulation of primed CD8+ cells. These studies indicate that the duration of priming stimulus and the avidity of the autoreactive CD8+ cells profoundly influence the severity of autoimmune disease.
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PMID:Autoimmunity caused by ignorant CD8+ T cells is transient and depends on avidity. 765 Mar 69

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