Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The diabetes syndrome of the BB rat resembles human Type 1 (insulin-dependent) diabetes including the prevalence of autoantibodies to the 64 kDa Beta-cell autoantigen, which has been identified as glutamate decarboxylase. This study aimed at detecting the prevalence and level of glutamate decarboxylase autoantibodies in 120-day-old diabetic and non-diabetic diabetes-prone BB/OK rats compared to those of sex- and age-matched diabetes-resistant LEW.1A rats. The antibodies were detected using semipurified glutamate decarboxylase from rat brain in two immunoassays, a direct and a sandwich enzyme-linked immunosorbent assay. For the last assay autoantibody-containing immunoglobulins of a serum from a patient with the stiff-man syndrome were used to bind specifically the enzyme as autoantigen in plastic wells. The antibody levels measured as optical density at 490 nm (x +/- SD)/prevalence of the diabetic group (120 +/- 29 days of age) of BB/OK rats 0.57 +/- 0.29 (n = 51)/88% as well as those of the nondiabetic group (121 +/- 26 days of age) with 0.51 +/- 0.29 (n = 32)/97% was significantly increased (p < 0.01) compared to those of the diabetes-resistant control group 0.15 +/- 0.06 (n = 29)/0%. Furthermore in a 209 +/- 27-day-old group (n = 21) of non-diabetic but diabetes-prone BB/OK rats the autoantibody levels of 1.21 +/- 0.39 vs 0.51 +/- 0.26 were further significantly enhanced (p < 0.01). These results were confirmed by a sandwich assay.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Autoantibodies to glutamate decarboxylase detected in diabetes-prone BB/OK rats do not distinguish onset of diabetes. 805 59

The regeneration of islet cells in a transgenic mouse strain harboring the interferon-gamma gene (IFN-gamma) linked to the insulin promoter DNA fragment (ins-IFN-gamma) is described. The regeneration follows the loss of islets by an immune response provoked by IFN-gamma and manifests in the proliferation of duct cells, the presence of progenitor cells, and the formation of buds and isletlike structure. All three types (A, B, and D) of four endocrine cells identified by immunolabeling are present. The progenitor cells express neuronal enzymes, tyrosine hydroxylase (TH) and glutamic acid decarboxylase (GAD), as revealed by specific antibodies. The results indicate that the islet regeneration closely resembles the embryonic islet differentiation and serves as a model for studying islet development. The expression of neuronal enzymes by islet progenitor cells signifies yet unknown relationships to the nervous tissue. GAD, recognized as an autoantigen in insulin-dependent diabetes mellitus (IDDM) and stiff-man syndrome, may provide a clue to the mechanism of autoimmune disease.
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PMID:A transgenic model for studying islet development. 814 22

Beta-cell function and islet cell antibodies were studied in six patients with autoimmune polyendocrine syndrome type I. All suffered from mucocutaneous candidiasis, five had adrenocortical insufficiency and three hypoparathyroidism. All sera contained high titres of antibodies staining islets of Langerhans. Reactivity against glutamate decarboxylase, predominantly the 65 kDa isoform, was detected by immunoprecipitations and Western blots in five of the six sera, and all six sera immunoprecipitated a 51 kDa antigen from [35S]-methionine labelled rat islet cell lysates. No reactivity against this latter antigen was found in sera of patients with Type 1 (insulin-dependent) diabetes mellitus (n = 9), Graves' disease (n = 5), autoimmune gastritis (n = 4), idiopathic Addison's disease (n = 7), or stiff-man syndrome (n = 2). The 51 kDa antigen was also detected by Western blots using homogenates of rat islets and autoimmune polyendocrine syndrome type I patient sera, whereas no such reactivity was found with homogenates of testes, adrenals, small intestine, spleen, exocrine pancreas or brain. Moreover, the 51 kDa antigen was present in the rat insulinoma cell line RINm 5F but not in the SV-40 transformed, monkey kidney cell line COS, when examined by immunoprecipitations of [35S]-methionine labelled cell lysates and by Western blots. None of the patients with autoimmune polyendocrine syndrome type I had symptoms of diabetes and their insulin responses to glucose challenge were normal. The data illustrate that patients with autoimmune polyendocrine syndrome type I present an autoimmune response against islets of Langerhans, which is apparently different from that associated with classic Type 1 diabetes.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Autoantibodies against a novel 51 kDa islet antigen and glutamate decarboxylase isoforms in autoimmune polyendocrine syndrome type I. 815 Feb 32

Stiff-man syndrome is a well-described, but rare and often overlooked, neuromuscular syndrome of rigidity, spasm, and gait abnormality that is associated with several endocrinologic and autoimmune disorders. A patient exhibiting many typical features of stiff-man syndrome had intermittent symptoms for 22 years before the correct diagnosis was made. Similar to many described patients, she was diabetic, hyperthyroid, and had elevated islet cell, antithyroid, and glutamic acid decarboxylase antibody levels. The high frequency of diabetes mellitus among patients with stiff-man syndrome is emphasized, as is increasing evidence to suggest that elaboration of anti-glutamic acid decarboxylase and anti-islet cell antibodies may play a role in the pathophysiologic state of the disorder.
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PMID:Stiff-man syndrome. Report of a case. 820 96

Stiff-man syndrome (SMS) is a rare disorder of the central nervous system of probable autoimmune origin. Patients with SMS often have other autoimmune diseases, in particular type I (insulin-dependent) diabetes mellitus (IDDM). Approximately 60% of patients with SMS have high titers of autoantibodies against the enzyme glutamic acid decarboxylase. Similar to SMS, the majority of patients with IDDM have autoantibodies against glutamic acid decarboxylase at or before diabetes onset, although usually at a lower titer and with a different reaction pattern than patients with SMS. To investigate the immunogenetic basis of SMS, we HLA-typed 18 patients with the disease. Seventy-two percent carried the DQB1*0201 allele (13 of 18, P = 0.02 vs. 18 of 48 controls), indicating that SMS is associated with this allele. DQB1*0201 is also a susceptibility allele for IDDM and other autoimmune diseases. Patients with SMS carried the IDDM-protective DQB1*0602 allele and other sequence-related DQB1*06 alleles with the same frequency observed in controls. In contrast, these alleles are rarely found in IDDM. Five of 8 (62.5%) SMS patients lacking a DQB1*06 allele were diabetic in contrast to only 2 of 10 (20%) with a DQB1*06 allele (P = 0.08), suggesting that the presence of DQB1*0602 or other DQB1*06 alleles may be associated with a reduced prevalence of diabetes among patients with SMS.
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PMID:Association of HLA-DQB1*0201 with stiff-man syndrome. 826 40

A membrane form of L-glutamate decarboxylase (GAD) was identified and purified to apparent homogeneity from hog brain. The purified GAD was established as an integral membrane protein by phase-partitioning assay, charge-shift electrophoresis, and chromatography on a hydrophobic interaction column. This membrane GAD has a native molecular mass of 96 +/- 5 kDa and is a homodimer of 48 +/- 3-kDa subunits. Immunoprecipitation and immunoblotting tests revealed the presence of antibodies against this membrane GAD in sera from patients with insulin-dependent diabetes mellitus. Since this form of GAD appears to be an integral membrane protein and is presumed to have extracellular domains exposed, it seems reasonable to suggest that membrane GAD is more likely than soluble GAD to be involved in the pathogenesis of insulin-dependent diabetes and related autoimmune disorders such as stiff-man syndrome.
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PMID:A membrane form of brain L-glutamate decarboxylase: identification, isolation, and its relation to insulin-dependent mellitus. 827 73

Cytoplasmic islet cell antibodies are well-established predictive markers of IDDM. Although target molecules of ICA have been suggested to be gangliosides, human monoclonal ICA of the immunoglobulin G class (MICA 1-6) produced from a patient with newly diagnosed IDDM recognized glutamate decarboxylase as a target antigen. Here we analyzed the possible heterogeneity of target antigens of ICA by subtracting the GAD-specific ICA staining from total ICA staining of sera. This was achieved 1) by preabsorption of ICA+ sera with recombinant GAD65 and/or GAD67 expressed in a baculovirus system and 2) by ICA analysis of sera on mouse pancreas, as GAD antibodies do not stain mouse islets in the immunofluorescence test. We show that 24 of 25 sera from newly diagnosed patients with IDDM recognize islet antigens besides GAD. In contrast, GAD was the only islet antigen recognized by ICA from 7 sera from patients with stiff man syndrome. Two of these sera, however, recognized antigens besides GAD in Purkinje cells. In patients with IDDM, non-GAD ICA were diverse. One group, found in 64% of the sera, stained human and mouse islets, whereas the other group of non-GAD ICA was human specific. Therefore, mouse islets distinguish two groups of non-GAD ICA and lack additional target epitopes of ICA besides GAD. Longitudinal analysis of 6 sera from nondiabetic ICA+ individuals revealed that mouse-reactive ICA may appear closer to clinical onset of IDDM in some individuals. Mouse-reactive ICAs, however, remained absent in 36% of the patients at diagnosis of IDDM.
Diabetes 1993 Nov
PMID:Cytoplasmic islet cell antibodies recognize distinct islet antigens in IDDM but not in stiff man syndrome. 840 7

Glutamic acid decarboxylase (GAD) catalyzes the synthesis of gamma-aminobutyric acid (GABA), which is known as a major inhibitory neurotransmitter in the central nervous system (CNS), but is also present outside the CNS. Recent studies showed that GAD is the major target of autoantibodies associated with the development of insulin-dependent diabetes mellitus and of the rare stiff man syndrome. Studies of GAD expression have demonstrated multiple transcripts, suggesting several isoforms of GAD. In this study, three different genes were mapped by in situ hybridization to both human and mouse chromosomes. The GAD1 gene was mapped to human chromosome 2q31 and to mouse chromosome 2D in a known region of conservation between human and mouse. GAD2, previously mapped to human chromosome 10p11.2-p12, was mapped to mouse chromosome 2A2-B, which identifies a new region of conservation between human and mouse chromosomes. A potential GAD3 transcript was mapped to human chromosome 22q13 and to mouse chromosome 15E in a known region of conservation between human and mouse. It is concluded that the GAD genes may form a family with as many as three related members.
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PMID:Mapping of glutamic acid decarboxylase (GAD) genes. 840 75

The presence of one of the major targets for autoantibodies in Type 1 (insulin-dependent) diabetes mellitus, the enzyme glutamic acid decarboxylase, was studied in human, rat and mouse pancreatic tissue using immunoprecipitation and immunohistochemical techniques. Immunoprecipitation of glutamic acid decarboxylase was attempted with lysates of [35S]-methionine-labelled rat or mouse pancreatic islets using two different glutamic acid decarboxylase antisera, one mouse monoclonal antibody raised against the 65 kDa isoform of the enzyme, sera from six patients with Type 1 diabetes, one patient with stiff-man syndrome and sera from 19 non-obese diabetic mice. The same sera were used for immunoperoxidase staining of cryosections of human, rat or mouse pancreas. Using patient sera glutamic acid decarboxylase was detected by immunoprecipitations from isolated rat islets but not from islets of five different mouse strains tested, including the non-obese diabetic mouse. When using the non-obese diabetic mouse sera, glutamic acid decarboxylase could not be detected in either rat or mouse tissue. Immunoperoxidase staining demonstrated high levels of glutamic acid decarboxylase in human and rat pancreatic islets but low levels in mouse islets. Direct measurements of enzyme activity showed glutamic acid decarboxylase to be present in mouse islets at a level of about 40% of that in rat islets, and subsequent Western blot analyses indicated that mouse islets express the 67 kDa isoform, whereas as in rat islets both the 67 and 65 kDa isoforms are present.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Human autoantibodies react with glutamic acid decarboxylase antigen in human and rat but not in mouse pancreatic islets. 843 51

Glutamic acid decarboxylase (GAD) is the enzyme responsible for synthesis of the neurotransmitter gamma-aminobutyric acid in neurons and pancreatic beta cells. It is represented by two isoforms, GAD-65 and GAD-67, which are the products of two different genes and differ substantially only at their N-terminal regions. GAD-65 is a dominant autoantigen in stiff-man syndrome and insulin-dependent diabetes mellitus. In neurons and beta cells, GAD is concentrated around synaptic vesicles and synaptic-like microvesicles, respectively, as well as in the area of the Golgi complex. The mechanisms responsible for specific targeting of GAD to these organelles are not yet understood. The elucidation of the mechanism of subcellular targeting of GAD may be relevant to understanding its role as an autoantigen. In this study, the cloned genes for GAD-65 and GAD-67 were expressed separately in Chinese hamster ovary (CHO) cells and COS cells. While GAD-67 had a diffuse cytoplasmic localization, GAD-65 had a punctate distribution, with most of the immunoreactivity being concentrated in the area of the Golgi complex. A chimeric protein in which the 88 N-terminal amino acids of GAD-67 were replaced by the 83 N-terminal amino acids of GAD-65 was targeted to the Golgi complex, indicating that the N-terminal region of GAD-65 contains a targeting signal sufficient for directing the remaining portion of the molecule, highly similar in GAD-65 and GAD-67, to the Golgi complex-associated structures.
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PMID:Association of GAD-65, but not of GAD-67, with the Golgi complex of transfected Chinese hamster ovary cells mediated by the N-terminal region. 846 26


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