UMLS:C0011854 - FACTA Search

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Query: UMLS:C0011854 (type 1 diabetes)
20,749 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Central to the autoimmune pathogenesis of IDDM in NOD mice is the MHC class II region. In all models studied to date, expression of NOD MHC class II genes is essential for disease development suggesting a crucial role for I-ANOD-restricted presentation of autoantigen. Protection has been afforded by transgene incorporation of other non-NOD class II genes and many models have been proposed to account for this effect. It is now clear that protection is not achieved by deletion or permanent silencing of all autoreactive T cell clones. It also appears that expression of these genes is required both intra- and extrathymically. It still remains to be determined what role these genes may have in the various compartments and how the autoreactive cells are held in check in protected NOD transgenic mice. Currently, the most likely explanation is that intrathymic expression of non-NOD class II genes is required for the positive selection of class II-restricted immunoregulatory T cells, while peripheral expression is necessary to bring about the interaction of these cells in a tricellular complex with NOD autoantigen-specific T cells and APCs, so that the response can be deviated to a nonpathogenetic one. Whether this process is active or passive is not known.
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PMID:Influence of T lymphocytes and major histocompatibility complex class II genes on diabetes susceptibility in the NOD mouse. 860 25

Autoimmune T cells reactive to beta-cell autoantigens are generally believed to play an essential role in the immune-mediated selective pancreatic islet beta-cell destruction process leading to insulin-dependent diabetes mellitus (IDDM). Many of the supportive data have been obtained from animal models of this disease, but often these data remain to be validated in human IDDM, including the nature of the responsible autoreactive T cells and their targets on the beta cells. In the last few years, however, considerable progress has been made, and several candidate autoantigens have been identified. Diabetogenic T-cell clones have been isolated and characterized in animal models, but for the majority of these clones, the target autoantigen is unknown. In humans, the first islet autoantigens recognized by autoreactive T cells have been defined. This opens the way to designing immunointerventive strategies selective for these T cells and their candidate target antigens, in an attempt to prevent the onset of IDDM. In this review, we described the significance of T lymphocytes for the pathogenic process leading to type 1 diabetes and our studies showing (auto)immune responses by beta-cell-reactive T lymphocytes of newly diagnosed patients.
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PMID:T-cell recognition of beta-cell autoantigens in insulin-dependent diabetes mellitus. 864 54

Insulin-dependent diabetes mellitus (IDDM) is a T cell-dependent immune-mediated disease. Recently, a novel islet cell antigen (ICA69) recognized by autoantibodies was described. We tested T cell responsiveness to ICA69 in peripheral blood of patients with recent onset IDDM (n = 46), patients with long-standing IDDM (n = 44), non-diabetic age-matched, islet cell autoantibody- and glutamic acid decarboxylase (GAD)65 antibody-negative first-degree relatives of IDDM patients (n = 15) and rheumatoid arthritis patients (n = 22). T cell responsiveness was significantly higher in recent onset IDDM patients, compared to IDDM patients post-disease onset, non-diabetic first degree relatives and rheumatoid arthritis patients (p < 0.001). In responding IDDM patients a significant inverse correlation between T cell and autoantibody responsiveness to ICA69 was observed (p < 0.0005). Immunogenetic evaluation revealed an association of HLA-DR3 with T cell responsiveness to ICA69 (p < 0.02) and absence of ICA69-reactive autoantibodies (p < 0.04). The increased T cell reactivity to ICA69 in the absence of antibody reactivity at onset of IDMM is associated with an HLA class II immune response gene, and therefore suggestive of a genetically controlled selective activation of T helper subsets to a specific autoantigen in humans.
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PMID:HLA-associated inverse correlation between T cell and antibody responsiveness to islet autoantigen in recent-onset insulin-dependent diabetes mellitus. 864 6

Immunoprecipitating IgG autoantibodies to glutamic acid decarboxylase, GAD65, and/or a tyrosine phosphatase, IA2, are present in the majority of individuals experiencing pancreatic beta cell destruction and development of type 1 diabetes. Here we identify a third islet cell autoantigen, a novel 38-kD protein, which is specifically immunoprecipitated with sera from a subset of prediabetic individuals and newly diagnosed type 1 diabetic patients. The 38-kD autoantigen, named glima 38, is an amphiphilic membrane glycoprotein, specifically expressed in islet and neuronal cell lines, and thus shares the neuroendocrine expression patterns of GAD65 and IA2. Removal of N-linked carbohydrates results in a protein of 22,000 Mr. Glima 38 autoantibodies were detected in 16/86 (19%) of newly diagnosed patients, including three very young children, who had a rapid onset of disease, and in 6/44 (14%) of prediabetic individuals up to several years before clinical onset. The cumulative incidence of GAD65 and glima 38 antibodies in these two groups was 83 and 80%, respectively, and the cumulative incidence of GAD65, glima 38, and IA2 antibodies in the same groups was 91 and 84%, respectively. GAD65, IA2, and glima 38 represent three distinct targets of immunoprecipitating IgG autoantibodies associated with beta cell destruction and type 1 diabetes.
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PMID:Identification and characterization of glima 38, a glycosylated islet cell membrane antigen, which together with GAD65 and IA2 marks the early phases of autoimmune response in type 1 diabetes. 867 88

Glutamate decarboxylase (GAD65) is a major autoantigen in insulin-dependent diabetes (IDDM) and the neurological disorder Stiff-Man-Syndrome (SMS). We derived a human monoclonal autoantibody (MICA 2) from peripheral blood of a patient newly diagnosed with IDDM, which reacted with GAD65 in Western blots. This indicated that a linear epitope is recognized by MICA 2. Using an epitope cDNA library we mapped the MICA 2 epitope to a contiguous stretch of 26 amino acids (506-531) in the C-terminus of GAD65. Neither blocking experiments with synthetic peptides nor analysis of overlapping decapeptides expressed as fusion proteins allowed us to further narrow down the epitope to the typical size of linear epitopes of 6-8 amino acids. We suggest that a miniconformational epitope provided by amino acids 506-531 is recognized by MICA 2, which withstands SDS gel electrophoresis without destruction or partially refolds during the Western blot procedure. A sequence homology with human heat shock protein 60 (HSP60) maps to this region of GAD65 but no cross-reactivity of MICA 2 with HSP60 occurred. Our data demonstrate that reactivity of an antibody in Western blots does not necessarily define a classic linear epitope of 6-8 amino acids and describe a new autoreactive epitope in GAD65 different from those reported for sera from patients with SMS.
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PMID:Mapping of an autoreactive epitope within glutamate decarboxylase using a diabetes-associated human monoclonal autoantibody and an epitope cDNA library. 874 89

Insulin dependent diabetes mellitus (IDDM) is an autoimmune disease characterized by lymphocytic infiltration of the pancreatic islets (insulitis). Cytokines released as part of the insulitis process have been suggested to play an important role in the beta cell lesion of IDDM. A possible diabetogenic effect of cytokines may be mediated by their inducing abnormal expression of islet cell autoantigens. Since glutamic acid decarboxylase-65 (GAD-65) is a target autoantigen in IDDM, we investigated whether the cytokines IL-1 beta, TNF alpha IFN gamma altered islet cell expression of GAD-65 and whether the effect of cytokines on GAD-65 expression was similar to their effect on insulin secretion. We found that: 1) IL-1 beta at low dose (1 U/ml) which stimulated insulin secretion, had no effect on GAD-65 expression, whereas higher doses of IL-1 beta (10, 100, 1000 U/ml) which inhibited insulin secretion, decreased GAD-65 expression. 2) TNF alpha at doses of 10, 100, 1000 U/ml which stimulated insulin secretion had no effect on GAD-65 expression. 3) IFN gamma at doses of 10, 100, 1000 U/ml had no effect on insulin secretion or on GAD-65 expression. 4) In combination, IL-1 beta plus TNF alpha and IFN gamma showed a similar inhibitory effect on GAD-65 expression as IL-1 beta alone. In summary: 1) IL-1 beta dramatically inhibits GAD-65 expression. 2) TNF alpha and IFN gamma have no effect on GAD-65 expression. Of these three cytokines, IL-1 beta is the primary cytokine affecting GAD-65 expression.
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PMID:The effect of cytokines on expression of glutamic acid decarboxylase-65 in cultured islets. 878 13

The processes that lead to the production of islet cell autoantibodies in insulin-dependent (type 1) diabetes mellitus (IDDM) are largely unknown. Humoral autoimmunity may be the result of an antigen-independent polyclonal B cell activation, or a consequence of an antigen driven B cell activation and selection for the antigen. We have analysed the gene elements encoding the immunoglobulin variable regions of seven human monoclonal islet cell antibodies (MICA) 1-7 directed to the major islet autoantigen glutamate decarboxylase (GAD65). These autoantibodies were derived from two patients with newly diagnosed IDDM. The variable gene regions of the MICA revealed different sequences, and no relation between V gene usage and shared epitope recognition of the MICA was evident. An elevated usage of VH 1, VH 4 and Vlambda 2 gene segments was observed. The underrepresentation of VH 3 family members in the MICA discriminated them from most autoantibodies. The high relative avidities for GAD65 of MICA 1, 3, 4 and 6 and their high, nonrandom ratio of replacement versus silent mutations in the antigen binding regions indicated that the humoral response to GAD65 is driven by the antigen. MICA 2, 5 and 7 showed as well an excess of replacement mutations in the antigen binding regions, but revealed lower relative avidities for their antigen. Since these clones accumulated many somatic mutations in their variable gene regions, they may be characteristic for later stages of the autoimmune disease. The results suggest that, in humans, an antigen driven B cell activation and affinity maturation process may contribute to the production of GAD65-autoantibodies found in patients with IDDM.
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PMID:Evidence for somatic mutation and affinity maturation of diabetes associated human autoantibodies to glutamate decarboxylase. 881 73

Insulin-dependent diabetes (IDDM) is probably mediated by T lymphocytes recognizing critical beta cell autoantigens. Glutamic acid decarboxylase (GAD) 65 is a major antigen in IDDM. T cells in both IDDM patients and controls respond to GAD 65 and certain epitopes of this molecule. To clarify the immune response to GAD 65 we established T cell clones specifically recognizing epitopes of GAD 65. We obtained T cells clones to GAD 65 peptides 161-175 (from a healthy individual), and 505-519 and 521-535 (from two IDDM patients). On extensive screening T cells responsive to peptide 161-175 were found only in controls, while T cells responsive to peptide 521-535 were found only in IDDM patients; T cells from both IDDM patients and controls responded to peptide 505-519. We could exclude simple genetic shaping of these T cell responses since the responses differed between genetically identical twins discordant for IDDM. Reactivity of T cell clones from the control to peptide 161-175 was restricted by HLA DR1 but promiscuous for HLA DR4 as DR4+ EBV transformed B cells and DR4+ mouse L-transfectants could present the peptide. As DR4+ antigen presenting cells of diabetics could present peptide 161-175 to some clones, the lack of response to this epitope in diabetic patients cannot be due to inadequate antigen presentation but is probably due to deletion of these cells either centrally or peripherally. Reactivity of clones to peptide 505-519 was either HLA DR1 or DQ1 restricted. In conclusion, T cell clones to specific epitopes of GAD 65 provide a model to clarify those differences in the immune response to this autoantigen between controls and IDDM patients.
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PMID:T cell clones to epitopes of glutamic acid decarboxylase 65 raised from normal subjects and patients with insulin-dependent diabetes. 881 75

A number of proteins, many of them enzymes, i.e. glutamic acid decarboxylase (GAD), carboxypeptidase H, 37-40 K tyrosine phosphatase (ICA512, IA2/IA2 beta), have been proposed as islet autoantigens involved in the pathogenesis of IDDM. Until recently, progress in their characterization has been impeded by the inaccessibility of the human pancreas, resulting in many of them being cloned from animal or non-islet sources. Carboxypeptidase H, one of these enzymes, has been cloned and sequenced from human brain and from rat islets but not from human islets. In this study, we describe the production of a human islet cDNA library and the cloning of islet CPH from it. Since CPH clones were also detected in a human thyroid library, we have sequenced CPH from these two endocrine tissue libraries and compared them to the known brain sequence. The sequences from islets and thyroid were identical and differed from brain only in the absence of a second ATG in the predicted 5'non-coding region. Northern blot analysis revealed the presence of an identical 2.5 kb transcript in human islets, thyroid and brain. The confirmation of the existence of a single isoform of CPH expressed in brain and endocrine tissues simplifies future experiments to elucidate the role of CPH as autoantigen.
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PMID:Cloning of candidate autoantigen carboxypeptidase H from a human islet library: sequence identity with human brain CPH. 886 28

A 4.7 kb cDNA of tyrosine phosphatase-like protein, phogrin, was isolated from a human islet cDNA library. Sequencing of the resulting clone identified a 3,045 residue open-reading frame encoding a 1,015 amino acid polypeptide with predicted molecular mass of 111,303 daltons. Phogrin's amino acid sequence has a single transmembrane region and one putative tyrosine phosphatase catalytic domain. Phogrin is 74% identical to the ICA512/IA-2 autoantigen of type 1 diabetes in the cytoplasmic domain, but only 29% in the luminal domain. It showed > 90% identity to rat phogrin and mouse IA-2 beta. Autoantibody radioassays utilizing full-length and the cytoplasmic domain of phogrin were compared. With positivity defined above the 99th percentile of 105 normal control subjects, 37 (48%) and 47 (61%) of sera from 77 new-onset patients with type 1 diabetes were positive for autoantibodies to full-length and the cytoplasmic domain of phogrin, respectively. The assay utilizing cytoplasmic human phogrin gave higher sensitivity with identical specificity to the assay utilizing the full-length molecule primarily due to lower "background" binding. Phogrin is an additional major autoantigen for type 1 diabetes and the isolation of the cDNA of this molecule from human islets will aid in studies of the pathogenesis of type 1 diabetes.
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PMID:Molecular cloning and characterization of the human transmembrane protein tyrosine phosphatase homologue, phogrin, an autoantigen of type 1 diabetes. 887 34

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