UMLS:C0751781 - FACTA Search

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Query: UMLS:C0751781 (NOD)
6,696 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Tumor antigen-specific T cell clones represent a useful tool in tumor immunology; however, their long-term culture is limited. To generate an immortalized cytotoxic T cell clone against the human tumor antigen mucin, we exposed a previously generated T cell culture to Herpesvirus saimiri. We obtained an immortalized human CD4+ T cell clone, termed SITAM. Clonality of these cells was shown by analysis of the alpha/beta-T cell receptor (TCR) repertoire. Cytolytic activity was demonstrated against several mucin-expressing tumor cell lines and could not be detected against non-mucin-expressing cells. SITAM cells maintained their features stably for 2 years. Furthermore, growth of the tumor cell line Capan-2 in NOD/SCID mice was inhibited when SITAM cells were coinjected subcutaneously with tumor cells. SITAM cells provide an unlimited source of clonal T cells for analysis of tumor recognition and may be of help in TCR-targeted immunotherapy.
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PMID:Generation of an immortalized human CD4+ T cell clone inhibiting tumor growth in mice. 1135 45

K/BxN T cell receptor transgenic mice are a model of inflammatory arthritis, most similar to rheumatoid arthritis, that is critically dependent on both T and B lymphocytes. Transfer of serum, or just immunoglobulins, from arthritic K/BxN animals into healthy recipients provokes arthritis efficiently, rapidly, and with high penetrance. We have explored the genetic heterogeneity in the response to serum transfer, thereby focussing on the end-stage effector phase of arthritis, leap-frogging the initiating events. Inbred mouse strains showed clear variability in their responses. A few were entirely refractory to disease induction, and those which did develop disease exhibited a range of severities. F1 analyses suggested that in most cases susceptibility was controlled in a polygenic additive fashion. One responder/nonresponder pair (C57Bl/6 x NOD) was studied in detail via a genome scan of F2 mice; supplementary information was provided by the examination of knock-out and congenic strains. Two genomic regions that are major, additive determinants of the rapidity and severity of K/BxN serum-transferred arthritis were highlighted. Concerning the first region, on proximal chromosome (chr)2, candidate assignment to the complement gene C5 was confirmed by both strain segregation analysis and functional data. Concerning the second, on distal chr1, coinciding with the Sle1 locus implicated in susceptibility to lupus-like autoimmune disease, a contribution by the fcgr2 candidate gene was excluded. Two other regions, on chr12 and chr18 may also contribute to susceptibility to serum-transferred arthritis, albeit to a more limited degree. The contributions of these loci are additive, but gene dosage effects at the C5 locus are such that it largely dominates. The clarity of these results argues that our focus on the terminal effector phase of arthritis in the K/BxN model will bear fruit.
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PMID:Genetic influences on the end-stage effector phase of arthritis. 1148 51

The progression of autoimmune diabetes is regulated. We examined here the cellular controls exerted on disease that developed in the BDC2.5 T cell receptor-transgenic model. We found that all BDC2.5 mice with a monoclonal, beta cell-reactive, T cell repertoire developed diabetes before 4 weeks of age; transfer of splenocytes from young standard NOD (nonobese diabetic) mice into perinatal monoclonal BDC2.5 animals protected them from diabetes. The protective activity was generated by CD4+ alphabeta T cells, which operated for a short time at disease initiation, could be partitioned according to DX5 cell surface marker expression and split into two components. Protection did not involve clonal deletion or anergy of the autoreactive BDC2.5 cells, permitting their full activation and attack of pancreatic islets; rather, it tempered the aggressiveness of the insulitic lesion and the extent of beta cell destruction.
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PMID:Damage control, rather than unresponsiveness, effected by protective DX5+ T cells in autoimmune diabetes. 1171 66

The function of the intraepithelial lymphocyte (IEL) network of T cell receptor (TCR) gammadelta(+) (Vgamma5(+)) dendritic epidermal T cells (DETC) was evaluated by examining several mouse strains genetically deficient in gammadelta T cells (delta(-/-) mice), and in delta(-/-) mice reconstituted with DETC or with different gammadelta cell subpopulations. NOD.delta(-/-) and FVB.delta(-/-) mice spontaneously developed localized, chronic dermatitis, whereas interestingly, the commonly used C57BL/6.delta(-/-) strain did not. Genetic analyses indicated a single autosomal recessive gene controlled the dermatitis susceptibility of NOD.delta(-/-) mice. Furthermore, allergic and irritant contact dermatitis reactions were exaggerated in FVB.delta(-/-), but not in C57BL/6.delta(-/-) mice. Neither spontaneous nor augmented irritant dermatitis was observed in FVB.beta(-/-) delta(-/-) mice lacking all T cells, indicating that alphabeta T cell-mediated inflammation is the target for gammadelta-mediated down-regulation. Reconstitution studies demonstrated that both spontaneous and augmented irritant dermatitis in FVB.delta(-/-) mice were down-regulated by Vgamma5(+) DETC, but not by epidermal T cells expressing other gammadelta TCRs. This study demonstrates that functional impairment at an epithelial interface can be specifically attributed to absence of the local TCR-gammadelta(+) IEL subset and suggests that systemic inflammatory reactions may more generally be subject to substantial regulation by local IELs.
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PMID:Resident skin-specific gammadelta T cells provide local, nonredundant regulation of cutaneous inflammation. 1192 30

Activated insulin-specific CD8(+) T cells (IS-CD8(+) cells) home to the pancreas, destroy beta cells, and cause rapid diabetes upon transfer into diabetes-prone NOD mice. Surprisingly, they also cause diabetes in mouse strains that are free of preexistent inflammation. Thus, we hypothesized that islet-specific homing may be in part dependent on IS-CD8(+) cells' recognition of the cognate major histocompatibility complex (MHC)/peptide complexes presented by pancreatic endothelial cells, which acquire the antigen (insulin) from beta cells. In fact, islet-specific homing was abrogated in mice that lack MHC class I expression, or presentation of the specific peptide, or have impaired insulin secretion. Moreover, we found that IS-CD8(+) cells directly recognized pancreatic endothelial cells in islet organ cultures. Triggering of IS-CD8(+) cells' T cell receptor (TCR) led to activation of integrins expressed by these cells. In addition, chemokines, particularly SLC (CCL21), were also required for IS-CD8(+) cells' adhesion to endothelial monolayers and for successful homing in vivo. Thus, signaling through TCR and chemokine receptors work in concert to assure firm adhesion of T cells to the pancreatic endothelium. The antigen cross-presentation ability of endothelia may therefore contribute to the specificity of homing of activated T lymphocytes to the tissues where antigens are generated by other cell types.
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PMID:Presentation of antigen by endothelial cells and chemoattraction are required for homing of insulin-specific CD8+ T cells. 1261 5

In 1996 a new murine model of spontaneous arthritis was described by the group of Benoist and Mathis. Mice transgenic for a T cell receptor recognizing an epitope of bovine RNase and bred onto a NOD background developed severe destructive arthritis, which resembles human rheumatoid arthritis in many respects. The development of disease requires the presence of T and B lymphocytes and is dependent on the MHC class II molecule I-A(g7). B cell activation by antigen and an additional CD40-CD40 ligand interaction was found to give rise to the production of autoantibodies. Glucose-6-phosphate isomerase was identified as the target of the autoantibodies; moreover, the transgenic T cells were demonstrated to exhibit a dual specificity for both bovine RNase and glucose-6-phosphate isomerase. Importantly, the arthritis is serum transferable to normal recipients, enabling the examination of the pathogenic mechanisms of joint inflammation and destruction. Recent studies suggest the crucial involvement of the innate immune system in the development of antibody-induced arthritis. Complement components, Fc receptors and neutrophils are indispensable for disease induction. An overview of the existing data is given and the emerging concepts of the pathogenesis of the K/BxN arthritis are discussed with respect to their relevance for human rheumatoid arthritis. Because of the reliable and robust induction of joint inflammation by serum transfer this new disease model has been and will be a valuable means to address the as-yet-unanswered key questions related to the development of arthritis.
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PMID:The KRN mouse model of inflammatory arthritis. 1290 93

To detect and characterize autoreactive T cells in diabetes-prone NOD mice, we have developed a multimeric MHC reagent with high affinity for the BDC-2.5 T cell receptor, which is reactive against a pancreatic autoantigen. A distinct population of T cells is detected in NOD mice that recognizes the same MHC/peptide target. These T cells are positively selected in the thymus at a surprisingly high frequency and exported to the periphery. They are activated specifically in the pancreatic LNs, demonstrating an autoimmune specificity that recapitulates that of the BDC-2.5 cell. These phenomena are also observed in mouse lines that share with NOD the H-2g7 MHC haplotype but carry diabetes-resistance background genes. Thus, a susceptible haplotype at the MHC seems to be the only element required for the selection and emergence of autoreactive T cells, without requiring other diabetogenic loci from the NOD genome.
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PMID:Susceptible MHC alleles, not background genes, select an autoimmune T cell reactivity. 1297 66

Self-reactivity is potentially so devastating to the organism that a variety of regulatory devices have evolved to control it. One broadly used strategy is that employing the processed T cell receptor (TCR) as a target for TCR-specific regulatory cells. In several autoimmune models, feedback regulation employing both CD4+ and CD8+ T cells of TCR specificity can be shown to occur and to account for remission from the transient disease state, or for its prevention. We will focus here on the experimental autoimmune encephalomyelitis (EAE) model in the B10.PL (H-2u) mouse. In this model, the acetylated 1-9 N-terminal antigenic determinant from myelin basic protein (MBP) induces a transient paralytic disease owing to the activation of self-directed, high-affinity, CD4+ T cells. Although the response is multiclonal, a particularly aggressive member of this repertoire, bearing a Vbeta8.2,Jbeta2.7 receptor, which we have termed a 'driver clone', appears to be largely responsible for the disease process. A CD4+ T cell directed against a TCR determinant in the framework region of the Vbeta chain, and a CD8+ T cell directed against an upstream, distinct framework determinant, both of which are necessary for regulation, bring about a reversal of the disease process. To accomplish this, there must be a Th1 milieu during the induction of regulation, which is provided in part by the CD4+ regulatory cells themselves. To act as a target, the Vbeta8.2 MBP-reactive T cell must be activated, and the Th1 driver clone(s) is down-regulated via apoptotic killing, leaving a group of Th2, MBP-specific clones of weak affinity, which themselves may help in perpetuating long-term regulation. Similar results are also found in the collagen arthritis and NOD diabetes models.
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PMID:Seven surprises in the TCR-centred regulation of immune responsiveness in an autoimmune system. 1460 18

Using BW 5147 T cell hybridomas isolated by fusion with spleen and lymph node cells from NOD female mice, two T cell receptor transgenic NOD mouse lines were produced. Both TCR transgenics respond to their cognate peptide/MHC (GAD65 206-220 and 286-300) and produce IL-2, IFN-gamma, and small amounts of IL-10. Unexpectedly, the transgenic mice do not develop diabetes and have no insulitis. Analysis with a GAD65 286-300/I-A(g7) tetramer reveals that transgenic T cells are negatively selected in the thymus and further negatively selected in the periphery. When crossed to the C(alpha)(-/-) NOD line, CD4 T cells were reduced by 90% in the thymus and periphery. Further, the tetramer positive GAD65 286-300 specific T cells were capable of delaying the onset of diabetes in a standard transfer system. Thus, GAD65 specific TCR transgenic T cells (1) must express a second a chain to survive negative selection, (2) produce IL-2 and IFN-gamma, and (3) have a mildly protective effect on transfer of diabetes with diabetogenic spleen cells.
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PMID:The T cell response to glutamic acid decarboxylase 65 in T cell receptor transgenic NOD mice. 1467 41

Glutamic acid decarboxylase (GAD65) is one of the autoantigens that initiates pathogenic T cell responses against insulin-secreting pancreatic beta cells in Type 1 diabetes (T1D). Previously it was shown that spontaneously arising pathogenic T cell responses in the NOD mouse model are confined to GAD530-543 (p530). However, regulatory T cell subpopulations, which can prevent diabetes, can also be generated, for example, by immunization with GAD524-538 (p524) or GAD524-543. Interestingly, two functionally distinct subpopulations of T cells which recognize overlapping determinants of GAD524-543, p524 and p530, utilize distinct TCR Vbeta families, Vbeta4 for pathogenic, and Vbeta12 for regulatory T cells. We characterized T cell receptors (TCRs) from each subpopulation of T cells and visualized p524-specific TCR/p524/I-A(g7) and p530-specific TCR/p530/I-A(g7) complexes via molecular modeling to help us understand, at a molecular level, the in vivo expansion of p524- or p530-specific T cells in the NOD model of T1D. The absolute restriction in Vbeta usage but not Valpha usage and conserved CDR3beta lengths for both T cell subpopulations demonstrates that the beta chains are main contributors in shaping both p524/I-A(g7) and p530/I-A(g7) restricted TCRs. However, only Vbeta4+ T cells but not Vbeta12+ T cells contain a common motif (DWG) in CDR3beta and may involve all of CDR1beta, CDR2beta, and CDR3beta in the recognition of the C-terminus of p530. These observations imply that the spontaneously arising p530-restricted TCRs may be selected under stringent structural frameworks to bind p530/I-A(g7) with high affinity. Thus, the pathogenic p530-specific T cells may arise from a small pool of autoreactive T cells upon breaking tolerance.
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PMID:Molecular profile of the T cell receptors of regulatory and effector CD4+ T cells recognizing overlapping determinants on glutamic acid decarboxylase (524-543). 1472 93

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