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)

GAD65 is targeted by different patterns of autoantibodies [glutamic acid decarboxylase (GAD)-AAbs] in insulin-dependent diabetes mellitus (IDDM) and stiff-man syndrome (SMS). To study differentiation of the GAD-AAb pattern by immunohistochemistry, we examined the immunostaining of 15 monoclonal GAD antibodies (mc-GAD-Abs), which recognized different epitope regions of the antigen, on human pancreatic sections that were unfixed or fixed with different fixatives. By a competitive sandwich enzyme-linked immunosorbent assay (ELISA), three binding patterns of mc-GAD-Abs were identified: 5 of 15 mc-GAD-Abs recognized a linear N-terminal epitope (p1), 5 of 15 were reactive with a conformational GAD65 epitope region (p2), and 5 of 15 were cross-reactive with GAD67 (p3). These patterns of mc-GAD-Abs were tested for islet cell binding by indirect immunofluorescence on pancreatic sections treated with either (1) Bouin's solution, (2) Zamboni's solution, or (3) phosphate-buffered formaldehyde for 0.5, 1, 2, and 18 h at 4 degrees C. After fixation for up to 2 h no differentiation of immunoreactivity of patterns was observed using the three fixatives. mc-GAD-Abs recognizing conformational epitope regions (p2) revealed a marked reduced immunoreactivity on pancreatic sections fixed for 18 h with 4% formaldehyde, while mc-GAD-Abs reactive with linear epitopes (p1, p3) were detectable with strong binding. This fixation procedure was used to compare the immunoreactivity of GAD-AAb+ or GAD-AAb- islet cell cytoplasmic antibody-positive (ICA+) sera of IDDM (n = 27) and SMS patients (n = 3). The three SMS sera were reactive with GAD on fixed islets but showed a reduced titer, whereas the majority of IDDM sera (22/27; 81.5%) were not detectable; 70.6% (12/ 17) of GAD-AAb+ IDDM sera were not detectable on fixed islets. Furthermore, all 10 GAD-AAb- IDDM sera tested failed to react with fixed pancreas, which also suggested an alteration of non-GAD-ICA antigens. In conclusion, the fixation of human pancreatic sections with formaldehyde for 18 h allows the differentiation of GAD-AAbs recognizing linear and conformational epitope regions.
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PMID:Immunohistochemical differentiation of monoclonal GAD antibodies recognizing linear or conformational epitope regions. 926 Jan 98

The M(r) 65,000 isoform of glutamic acid decarboxylase (GAD65) has been implicated as the initiating islet cell antigen in the pathogenesis of diabetes, primarily based on studies in non-obese diabetic (NOD) mice. To test the role of this islet cell autoantigen in the pathogenesis of spontaneously occurring diabetes in another animal model, purified recombinant human islet GAD65 was injected i.v. at 200 micrograms/animal into 18-day-old diabetes-prone BB rats. For controls, bovine serum albumin (BSA), which has also been implicated in the pathogenesis of diabetes, or buffer alone was injected into age matched BB rats. At 210 days of age there were no differences in diabetes incidence in the 3 groups, i.e. 73% (11 of 15) in the GAD65-treated, 81% (13 of 16) in the BSA-treated and 65% (11 of 17) in the buffer-treated animals, or in the median age at onset of disease, i.e. 79 days (range 65-111), 87 days (range 60-107) and 86 days (range 74-109), respectively. The lack of protection against diabetes following GAD65 treatment could hypothetically be explained by no or by an aberrant expression of GAD in BB-rat islet cells. However, immunohistochemistry of pancreata and immunoblotting analysis of isolated islets showed that the expression of GAD65 and GAD67 was similar in BB and Lewis rats. In conclusion, these data indicate that neither GAD65 nor BSA autoimmunity is important for the development of diabetes in BB rats, in contrast to the situation in NOD mice, and further emphasizes that extrapolation from only one animal model to autoimmune diabetes in general may not be appropriate.
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PMID:Treatment with GAD65 or BSA does not protect against diabetes in BB rats. 927 78

The GM2-1 islet ganglioside has been sequenced, found to be a novel ganglioside structure with a sialic acid moiety in the terminal position and two residues of non-acetylated galactosamine and also shown to be a target of autoantibodies in a subset of ICA+ relatives of type 1 diabetic patients who subsequently progressed to the overt disease. In the present study we determined whether antibodies to GM2-1 or to other pancreatic gangliosides (a) are also expressed at disease onset and (b) are correlated with other diabetes-associated autoantibodies. Pancreatic gangliosides were extracted from human pancreas and purified by thin layer chromatography (TLC). Anti-ganglioside autoantibodies were determined using an indirect immunoperoxidase technique performed directly on TLC plates in the following groups of patients: (a) newly diagnosed type 1 diabetic subjects before insulin therapy (n = 45); all were tested for GAD65 autoantibodies in a fluid-phase RIA using 35S-methionine-labelled recombinant human GAD65. Of these patients, 24 were also tested for insulin autoantibodies (IAA) by a competitive fluid phase radioimmunoassay and 21 were tested for GAD67 reactivity. (b) Forty-two age- and sex-matched normal control subjects. Autoantibodies to GM2-1, but not to other pancreatic gangliosides (GM3, GD3, GD1a), were expressed in 31 of 45 new-onset type 1 diabetic subjects and in one of 42 normal controls (P < 0.01), while anti-GAD65, IAA and anti-GAD67 were found in 31 of 45, 12 of 24 and three of 21 patients respectively, but not in the control group of subjects. Interestingly, occurrence of GM2-1 autoantibodies was significantly correlated (P < 0.005) with positivity for GAD65 autoantibodies, but not for IAA or GAD67 autoantibodies. It is of note that both GAD and gangliosides are mainly expressed in islets and in neuronal tissues and, therefore, type 1 diabetes may be regarded as a neuroendocrine autoimmune disease.
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PMID:Autoantibodies to the GM2-1 islet ganglioside and to GAD-65 at type 1 diabetes onset. 945 98

Insulin-dependent diabetes mellitus (IDDM) results from chronic, T-cell dependent, autoimmune destruction of the insulin-producing beta-cells in the Langerhans' islets of the pancreas. Non-obese diabetic (NOD) mice spontaneously develop IDDM that resembles human type I diabetes. The susceptibility to diabetes in the NOD strain is a complex polygenic trait that determines a phenotype of immune alterations. The unique MHC class II molecule expressed by NOD mice (I-Ag7) plays a major role in the development of disease. Recently, it has been reported that I-Ag7 molecules generate a lower proportion of compact alphabeta heterodimers, compared to other haplotypes. However, it is not clear whether this reflects an intrinsic defect of this molecule to bind peptide stably or is the result of abnormal processing and/or peptide loading into the I-Ag7 molecule. Our aim was to develop and characterize a suitable antigen-presenting cell (APC) that expressed I-Ag7 in the context of a non-diabetes-prone antigen processing and presentation machinery. Here, we report the generation of a mouse DAP.3 fibroblast cell line (DAP.3Ag7) that constitutively expresses high levels of I-Ag7. Using DAP.3 cells transfected with I-Ag7 or I-Ak, we show that the expression of compact dimers in the same cell type is proportionally less for I-Ag7 molecules than for I-Ak molecules, implying an intrinsic defect of the I-Ag7 molecule as the cause for the low generation of compact dimers. However, DAP.3Ag7 cells are able to process and present antigen, as indicated by I-Ag7-dependent IL-2 production by a GAD67-specific NDO T-cell hybridoma after stimulation with GAD and live, but not fixed, DAP.3Ag7 cells. The IL-2 response to GAD when presented by DAP.3Ag7 was significantly higher than the response to GAD presented by NOD splenocytes. Based on these data, we conclude that the low generations of compact dimers is an intrinsic feature of I-Ag7 molecules and not affected by other genes in the NOD background. The DAP.3Ag7 cell line should be a valuable tool with which to dissect the role of the I-Ag7 molecule in antigen presentation and T-cell activation in NOD mice, which clearly contributes to the development of IDDM.
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PMID:Development of an I-Ag7-expressing antigen-presenting cell line: intrinsic molecular defect in compact I-Ag7 dimer generation. 948 Jul 24

It has recently been shown that the T-cell mediated immune responses to glutamic acid decarboxylase (GAD) play an important role in insulin-dependent diabetes mellitus (IDDM) in NOD mice. However, specific epitopes responsible for eliciting these responses remain unresolved. In this study, the T-cell epitopes involved in GAD-specific immune responses in NOD mice were characterized. By priming NOD mice with GAD65, three new GAD65 epitopes (GAD65 78-97, GAD65 202-221, GAD65 217-236) distinct from those previously reported were found. Furthermore, our investigations into the fine determinant specificity of GAD67 revealed two additional GAD67-specific peptide epitopes (GAD67 28-47, GAD67 42-61). Two of the GAD65 epitopes (GAD65 202-221 and GAD65 217-236) are shared between GAD65 and GAD67. Spontaneous immune responses to these peptides were found in pre-diabetic and diabetic mice and differential patterns of responses to these peptides were observed depending on the age of the mice, disease status, or if the mice were protected from diabetes by adjuvant immunotherapy. Characterization of these new epitopes will help in the elucidation of autoimmune responses to GAD in IDDM.
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PMID:Characterization of novel T-cell epitopes on 65 kDa and 67 kDa glutamic acid decarboxylase relevant in autoimmune responses in NOD mice. 948 Jul 26

Glutamic acid decarboxylase (GAD) catalyzes the formation of gamma-aminobutyric acid (GABA), which is a major transmitter in the central nervous system. Two forms of GAD (GAD65 and GAD67) are known to be expressed in human tissues and GAD65 is predominantly expressed in pancreatic beta-cells. Recent findings revealed that GAD functions as an autoantigen in human autoimmunity, especially in insulin-dependent diabetes mellitus (IDDM). GAD is a key antigen for the development of autoimmunity against beta-cells and the production of GADAb precedes other autoantibodies such as IAA and ICA512/IA-2Ab prior to the clinical onset of IDDM. At onset, GADAb is detected in 50-80% of patients using RIA or RBA method. Factors that influence the positivities and titers of GADAb at onset, such as onset age, sex, presence of autoimmunity against thyroid, HLA type, have been reported. After onset, GADAb titer decreased more slowly than that of ICA512/IA-2Ab. These findings suggest that autoantibodies against beta-cells, such as GADAb, may develop independently. The presence of GADAb in relatives of IDDM patients and NIDDM patients predicts the development of beta-cell destruction in combination with other anti-islet autoantibodies.
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PMID:[GAD antibody in IDDM]. 959 23

Glutamic acid decarboxylase (GAD) is an important autoantigen in insulin-dependent diabetes mellitus (IDDM), but little is known about its regulation and function in islet cells. We investigated the effects of the GABA-transaminase inhibitor gamma-vinyl-GABA (GVG) on GAD expression in rat islets and brain in vitro and in vivo. In islets incubated in high glucose culture medium there was an increase in GAD activity, GAD65 and GAD67 protein levels compared to low-glucose conditions; however, even in high glucose, GVG still significantly suppressed GAD activity and GAD67 expression. Our observations suggest that glucose and GVG act on GAD in islets through different mechanisms. Quantitative immunohistochemistry of pancreatic sections from rats treated with GVG in vivo using novel monoclonal antibodies specific for GAD65 and GAD67, showed a decrease in GAD67 expression (p < 0.005) relative to untreated rats. The effects of GVG on rat pancreatic islets were very similar to those observed in brain of rats treated with GVG in vivo. In homogenates of cerebral tissue from GVG treated rats containing both membrane-bound and soluble protein GAD67 levels were significantly decreased while GAD65 levels were not significantly changed compared to untreated rats. In contrast, in homogenates of cerebral tissues containing only soluble cytosolic protein, GVG-treatment was also significantly found to decrease GAD65 levels. Taken together, these results suggest that GVG potentially could be of use to decrease GAD expression in islet cells and consequently to deviate/inhibit the autoimmune response against the beta cells seen in IDDM.
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PMID:Regulation of GAD expression in rat pancreatic islets and brain by gamma-vinyl-GABA and glucose. 962 69

Glutamic acid decarboxylase (GAD) is one of the major autoantigens found in insulin-dependent (Type 1) diabetes mellitus (IDDM). A novel hybrid form of GAD was created by fusing amino acids 1-101 of the human GAD67 protein to amino acids 96-585 of the human GAD65 protein. This hybrid GAD67/65 was expressed constitutively under the control of the phosphoglycerate kinase promoter (PGK1) in the yeast Saccharomyces cerevisiae. Enzymatically active GAD was prepared from yeast lysates by a one-step purification on an affinity column using GAD-1 antibody. The purified hybrid GAD67/65 was radiolabelled with iodine-125 and tested in an immunoprecipitation assay with IDDM sera. Results obtained using the recombinant yeast hybrid GAD67/65 were very similar to those obtained using 125I-labelled porcine GAD. Recombinant yeast hybrid GAD67/65 should have utility for diagnosis and presymptomatic detection of IDDM.
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PMID:Expression in Saccharomyces cerevisiae of antigenically and enzymatically active recombinant glutamic acid decarboxylase. 965 Feb 86

The technique of DNA-based vaccination was used to generate a T-cell-dependent antibody response to glutamic acid decarboxylase (GAD) in BALB/c, C57BL/6, and non-obese diabetic (NOD) mice. Plasmids were constructed in which the expression of the rat GAD65 (rGAD65) or the rat GAD67 (rGAD67) gene was driven by the immediate early region promoter of the human cytomegalovirus (pCMV). This "naked" plasmid DNA was then injected into the regenerating muscles of the studied mice. In the vaccinated animals, antibody responses to GAD65 or to GAD67 were induced. Epitope recognition of GAD was studied by protein footprinting, a technique which makes use of a limited proteolysis of antibody-bound antigen. Different epitope recognition patterns were found, corresponding to strain-specific patterns. Mild trypsin treatment generated 50 kD, 46 kD, 40 kD, 30 kD, and 21 kD proteolytic fragments. In NOD mice, 50, 46 and 40 kD bands were the most prominent signals. In non-diabetes prone BALB/c mice, a faint 40 kD band appeared suggesting a rather weak protection of GAD from tryptic lysis. The pattern observed in C57BL/6 mice was more comparable to the NOD mice pattern with prominent 40 kD and 30 kD signals and a faint 21 kD fragment. Diabetes incidence was unchanged in NOD mice, and no diabetes was observed in C57BL/6 and BALB/c mice, respectively. The data demonstrate that genetic immunization is a suitable novel tool to stimulate and to manipulate an immune response against the diabetes-associated protein glutamic acid decarboxylase. Interestingly, our results indicate that, by genetic vaccination, distinct B-cell epitopes were generated in the various studied mouse strains.
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PMID:DNA vaccination with glutamic acid decarboxylase (GAD) generates a strong humoral immune response in BALB/c, C57BL/6, and in diabetes-prone NOD mice. 985 66

We have shown that immunization of non-obese diabetic (NOD) mice with adjuvants (CFA or BCG) prevents the onset of diabetes by induction of regulatory cells. Since autoimmune responses to glutamic acid decarboxylase (GAD) are up-regulated in insulin-dependent diabetes mellitus (IDDM), in this study GAD67-specific antibody, T cell proliferation and lymphokine production patterns were analysed in the adjuvant-treated mice to characterize the regulatory mechanisms underlying the protection. We used both spontaneous diabetes and syngeneic islet transplantation models in NOD mice. Protection against spontaneous diabetes and prevention of syngeneic islet graft rejection by CFA or BCG treatment was found to be accompanied by the production of long lasting and high titre anti-GAD67 antibody of IgG1 isotype in the sera. Upon in vitro stimulation with GAD67, draining lymph node and spleen cells from CFA-immunized NOD mice or syngeneic islet-grafted and BCG-protected NOD mice produced much more IL-4, whereas there was no significant change in IFN-gamma production. The strong early T cell proliferative response to GAD67 in CFA or BCG-immunized NOD mice was followed by a low or unresponsiveness state. Taken together, these results suggest a shift in Th1/Th2 balance in the GAD67-specific endogenous immune response to a change in Th2 levels after adjuvant treatment. We postulate that the protective effect of CFA or BCG is due to the diversion of GAD-specific endogenous cellular immune response to a non-pathogenic humoral response.
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PMID:Endogenous immune response to glutamic acid decarboxylase (GAD67) in NOD mice is modulated by adjuvant immunotherapy. 987 81


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