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)

In IDDM, T-cells are postulated to mediate the destruction of pancreatic beta-cells. We analyzed peripheral blood mononuclear cell (PBMC) responses to human insulin, glutamate decarboxylase GAD65, tyrosine phosphatase ICA512, glucagon, membrane preparations of RIN cells and human pancreas, and three control antigens (La = nuclear cell antigen, tetanus toxoid, and phytohemagglutinin). A total of 28 patients with newly diagnosed IDDM, 9 antibody-positive (Ab+) first-degree relatives, and 16 healthy control subjects were included. Increased proliferative responses to pancreatic islet cell antigens were observed in diabetic patients and in Ab+ relatives compared with control subjects, whereas T-cell reactivity to nonpancreatic control antigens was similar between the study groups. The highest differences in the magnitude of proliferative responses were seen for ICA512, followed by membrane preparations of RIN cells, GAD65, and human pancreas. Few subjects reacted with insulin or glucagon. Interestingly, Ab+ relatives showed higher T-cell reactivity with respect to stimulation indexes and prevalences than newly diagnosed diabetic patients, and as many as 89% of Ab+ relatives showed proliferation to more than one islet cell antigen preparation in comparison to 43% of newly diagnosed diabetic patients and none of the control subjects. Statistical analysis revealed significant positive correlation of insulin autoantibody levels with the levels of insulin-specific T-cells in Ab+ relatives, but no relation of PBMC responses to age, sex, or HLA-DR haplotypes. Our results demonstrate the simultaneous existence of various autoreactive T-cells specific for islet cell antigens in the prediabetic period. These T-cells may play a significant role in the pathogenesis of the disease.
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PMID:Cellular immune response to diverse islet cell antigens in IDDM. 863 55

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

Antibodies to islet cell proteins detected as 37,000 and 40,000 M(r), tryptic fragments (37- and 40-kDa antigens) are strongly associated with progression to IDDM. The 40-kDa antigen has recently been identified as the tyrosine phosphatase-like protein IA-2 (ICA512) whereas the 37-kDa antigen has been suggested to be a different protein that has structural similarity to IA-2. A protein, phogrin, that has 80% amino acid sequence identity to IA-2 in the cytoplasmic domain, has recently been cloned from an insulinoma cell cDNA library. In this study, we have investigated possible relationships between the 37-kDa antigen and phogrin. Antibodies to phogrin were detected in sera from patients with IDDM, and these antibodies were strongly correlated with the presence of antibodies to the 37-kDa antigen. Trypsin treatment of immunoprecipitated phogrin generated a 37,000 M(r) fragment. Recombinant phogrin was able to block autoantibody binding to the 37-kDa antigen but not to the 40-kDa antigen, and rabbit antibodies raised to different regions of phogrin depleted insulinoma cell extracts specifically of the 37-kDa antigen. These results demonstrate that the 37-kDa antigen in IDDM is indistinguishable from phogrin and show that two distinct tyrosine phosphatase-related proteins are major targets of the autoimmune response in the disease.
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PMID:Identification of the 37-kDa antigen in IDDM as a tyrosine phosphatase-like protein (phogrin) related to IA-2. 877 20

The autoimmune disease insulin-dependent diabetes is thought to result from T-cell mediated destruction of pancreatic beta cells. We analysed the relation between humoral and cellular immunity to multiple islet cell antigens, including human insulin, glutamate decarboxylase GAD65, tyrosine phosphatase (ICA512/IA2), human pancreas and RIN cells in 28 patients with newly diagnosed type 1 diabetes and 9 antibody-positive (Ab+) relatives at high risk for type 1 diabetes. Of newly diagnosed patients, all showed reactivity to at least one recombinant islet cell antigen, by elevated cellular or humoral (or both) immune responses. Fifty-seven percent of patients and relatives showed T-cell reactivity to more than one islet cell antigen and 68% revealed humoral immunity to more than one islet cell antigen. Increased T-cell response to one single islet cell antigen was observed in 32% and positive antibody response in 25% of diabetic patients and relatives. Further-more, we found that T-cell reactivity to GAD was associated with T-cell reactivity to RIN cells, whereas reactivity to ICA512 and insulin was not associated with any other T-cell response. Likewise, antibody response to ICA512/IA2 correlated with antibodies to human pancreas (ICA), whereas antibody response to GAD or insulin was not related to any other antibody response. No positive or inverse correlation, however, was detected between T cell and humoral immunity, except for a positive association of antibodies and T-cell reactivity to insulin. Our data suggest that both humoral and cellular immune reactivity to multiple islet cell antigens are present in patients with newly diagnosed type 1 diabetes and in high risk relatives, but the two immune responses are individually activated.
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PMID:Relation between cellular and humoral immunity to islet cell antigens in type 1 diabetes. 881 82

ICA512 was isolated from an islet cDNA expression library and was identified as transmembrane protein closely related to the T-cell tyrosine phosphatase CD45. In order to determine the frequency of antibodies (ab) to ICA512, we tested sera of 124 newly diagnosed type 1 diabetic patients (IDDM) and 30 patients with long standing IDDM, 44 non-diabetic first degree relatives (FDR) with positive ICA or IAA, and 76 healthy control subjects using an ELISA. The mean +/- SD that we obtained in our control population was 4.1 +/- 3.9 U and a cut-off of 16 U was defined as normal range (mean + 3 SD). Of newly diagnosed diabetic patients and patients with long standing IDDM, 32% and 23% respectively had positive ICA512-ab with a mean of 22 +/- 33 U (vs controls p < 0.001) and 14 +/- 14 U (p < 0.01). Of antibody-positive first degree relatives, 36% were found to have elevated ICA512-ab with a mean of 24 +/- 41 U (p < 0.01). In relatives with multiple follow-up samples, ICA512-ab were found to be constantly positive or negative in 86% of cases, whereas fluctuation of ICA512-ab positivity occurred in five relatives in which three developed positive ICA512-ab and two lost ICA512-ab positivity during follow-up. Of ICA512-ab + relatives, 76% progressed to clinical type 1 diabetes within 5 years of follow-up, whereas only 24% developed diabetes in the ICA512-ab negative group (p < 0.01). ICA512-ab were more frequent in newly diagnosed diabetic children below age 15 years (p < 0.02) and in patients with positive ICA (p < 0.001) or positive IAA (p < 0.02). There was, in contrast, no correlation of ICA512-ab with GADA. One patient with newly diagnosed type 1 diabetes exclusively exhibited ICA512-ab. In conclusion, these results suggest that ICA512-ab are related to autoimmune type 1 diabetes and useful as an additional screening marker for the prediction of type 1 diabetes.
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PMID:Value of ICA512 antibodies for prediction and diagnosis of type 1 diabetes. 881 40

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

To determine the value of antibodies to the intracytoplasmic domain of the tyrosine phosphatase IA-2 (anti-IA-2ic) and glutamic acid decarboxylase (GADA) for identification of subjects at risk for insulin-dependent diabetes mellitus (IDDM) we investigated 1238 first degree relatives of patients with IDDM for the presence of anti-IA-2ic and GADA and compared the results with cytoplasmic islet cell antibodies (ICA). Anti-IA-2ic were observed in 54 (4.4%) first degree relatives, in 51 of 86 (59.3%) ICA positive relatives and in 3 of 4 individuals who developed overt IDDM within a follow-up period of 1 to 28 months. GADA were found in 78 of 1238 (6.3%) first degree relatives. They were detected in 22 of 35 (62.9%) sera with ICA alone and in 1 of 3 subjects with anti-IA-2ic in the absence of ICA. Of the 1238 subjects 37 (3.0%) sera were positive for all three antibodies. Both anti-IA-2ic and GADA were positively correlated with high levels of ICA. Anti-IA-2ic and GADA were detected in 39.1 and 47.8% of subjects with ICA of less than 20 Juvenile Diabetes Foundation units (JDF-U) but in 66.7 and 76.2% of individuals with ICA of 20 JDF-U or more, respectively (p < 0.05). The levels of ICA and GADA in first degree relatives with at least one additional marker were significantly higher than in subjects with ICA alone (p < 0.005) or GADA alone (p < 0.03). The combination of anti-IA-2ic and GADA identified 84.9% of all ICA positive subjects and 93.7% of individuals with high level ICA (> or = 20 IDF-U). All 4 individuals who progressed to IDDM had either IA-2ic or GADA. Our data indicate that primary screening for anti-IA-2ic and GADA provides a powerful approach with which to identify subjects at risk for IDDM in large-scale population studies which may represent the basis for the design of new intervention strategies.
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PMID:Combined screening for autoantibodies to IA-2 and antibodies to glutamic acid decarboxylase in first degree relatives of patients with IDDM. The DENIS Study Group. Deutsche Nikotinamid Interventions-Studie. 893 4

Islet cell antigen (ICA) 512 also termed IA-2 is a novel autoantigen of type 1 diabetes, which has a tyrosine phosphatase-like domain. We have assessed autoantibody RIAs using a series of ICA512/IA-2 constructs to produce in vitro synthesized 35S-methionine-labeled proteins. Levels of ICA512/IA-2 (256-979, truncated aminoterminus) autoantibodies were strongly correlated with those of the full-length ICA512/IA-2 (1-979) autoantibodies (r = 0.96, P < 0.0001) and ICA512/IA-2 (687-979) autoantibodies (r = 0.98, P < 0.0001). RIAs using these 3 constructs had increased sensitivity relative to our initially reported ICA512 autoantibody RIA (amino acids 389-948, truncated carboxy- and aminoterminus). Only 2 of 38 sera examined in this study reacted with an aminoterminus ICA512/IA-2 (1-577) construct. The mean SD score (SD score = (index of unknown sample-mean index of controls)/SD of controls) using the ICA512/IA-2 (256-979) construct was significantly higher than the SD score obtained with other ICA512/IA-2 constructs (P < 0.001). Amongst patients with new-onset diabetes and prediabetic relatives, using RIAs for autoantibodies reacting with ICA512/IA-2 (256-979), insulin, and glutamic acid decarboxylase 65, 98% expressed one or more of these autoantibodies and 78% expressed two or more, whereas no control (n = 208) expressed more than a single autoantibody. A combined ICA512/IA-2 (256-979), glutamic acid decarboxylase 65 autoantibody RIA with differential autoantigen labeling (35S-methionine, 3H-leucine) has been developed that uses 96-well plate membrane filtration and Top Counter beta counting. Concordance between results of dual and single RIAs was greater than 90%. This simple combined autoantibody assay should facilitate large-scale autoantibody screening.
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PMID:Evaluation of islet cell antigen (ICA) 512/IA-2 autoantibody radioassays using overlapping ICA512/IA-2 constructs. 902 21

Cytoplasmic islet cell antibodies (ICAs) are the classical serological markers for diagnosis and prediction of IDDM, but high technical demands have limited the widespread use of the histochemical ICA test. To investigate whether combined analysis of autoantibodies to two defined islet antigens can replace the histochemical ICA test, we established quantitative radioimmunoassays for autoantibodies to glutamate decarboxylase (GAD65-A), the tyrosine phosphatase IA2/ICA512 (IA2-A), and the cytoplasmic part of IA2 (IA2c-A). The GAD65-A and IA2c-A profiles of 920 sera from healthy individuals and from patients with IDDM, other organ-specific autoimmune diseases, and polyendocrine autoimmune syndrome were compared with the ICA profiles from these same individuals. Combined analysis of GAD65-A and IA2c-A detected 93-100% of the ICA+ sera, and, at equal specificity, improved the diagnostic sensitivity (85%) for IDDM compared with that of ICA (74%). This effect was especially pronounced in children with disease onset before 16 years of age (91% sensitivity). To replace ICA testing in risk assessment for IDDM, we designed a strategy adapted to study groups with low antibody prevalence. A combined radioimmunoassay for single-step detection of GAD65-A and IA2c-A was developed, and positive sera were reanalyzed to define their single autoantibody specificity. We identified 93% of the ICA+ sera from 204 first-degree relatives of IDDM patients. Single-step detection reduced costs and effort by more than 40% compared with separate testing, allowing an efficient large-scale screening of sera for GAD65-A and IA2c-A in IDDM. In sum, GAD65-A and IA2c-A detected much ICA reactivity, and their combined evaluation and detection is suitable to replace the histochemical ICA test.
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PMID:Combined analysis and single-step detection of GAD65 and IA2 autoantibodies in IDDM can replace the histochemical islet cell antibody test. 907 95

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