Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Since their demonstration in 1975, ICSAs have been proposed as serological markers and pathogenic elements in IDDM. ICSAs are detected in the sera of most newly diagnosed IDDM patients by indirect IFL that uses viable preparations of rat islet or insulinoma cells as substrate, but they also can be detected by using human insulinoma or fetal islet cells. We have tried to demonstrate ICSAs in the sera of 31 newly diagnosed diabetic patients, including 6 positive samples on human fetal islet cells, which used their natural target for the first time: normal human islet cells. In spite of using different types of preparations of these cells (i.e., freshly dispersed cell suspensions, monolayer cultures, or dispersed islets after culture), ICSAs could not be detected by IFL under the UV microscope, nor by flow cytometry. In contrast, 9 of 29 of the sera gave a positive staining on the RIN rat insulinoma cells. In an attempt to establish whether the putative ICSA autoantigen is present in the surface of human islet cells in the diabetic pancreas, the insulitis microenvironment was emulated by exposing the islets to three types of stress: 1) cytokines (IFN-gamma and TNF-alpha); 2) heat shock; and 3) hyperglycemia. However, diabetic sera failed again to recognize membrane antigens on the islet cells after either of these treatments. Neither were islet cells from a newly diagnosed diabetic patient stained by its autologous serum (ICA titer > 80 JDF U). These results suggest that ICSA autoantigen is not expressed in the membrane of human islet cells and therefore raises doubts about their proposed pathogenic role.
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PMID:Reevaluation of autoantibodies to islet cell membrane in IDDM. Failure to detect islet cell surface antibodies using human islet cells as substrate. 144 4

The pathogenesis of type 1 diabetes involves autoimmune processes directed against the pancreatic beta-cells. The etiology is not known, but circumstantial evidence suggests a connection between virus infection and development of the disease. Therefore, because the interferon-(IFN) dependent 2',5'-oligoadenylate (2-5A) synthetase system constitutes an important part of the nonspecific immune defense against viral infections, the activity of the enzyme was examined in islets of Langerhans, RIN cells, and GH3 cells. First, the 2-5A synthetase was expressed constitutively in all cell types and, second, all cells were sensitive to stimulation with IFN-alpha. The 2-5A synthetase activity induced by 1,000 U/ml of IFN-alpha increased by 400% in pancreatic islets and by more than 1000% in GH3 and RIN cells. However, the IFN-alpha concentration needed to induce half-maximal 2-5A synthetase activity was nearly the same in the three cell types (i.e., ranging from 59 to 66 U/ml IFN-alpha). The 2-5A synthetase present in islets and RIN cells was highly sensitive to poly (I:C). In pancreatic islets and RIN cells, the 2-5A synthetase enzyme generated dimers and trimers of 2',5'-oligoadenylates. Furthermore, exposure of RIN cells to IFN-alpha showed an increase in MHC class I expression already at 5 U/ml and maximal expression at about 200 U/ml IFN-alpha. The examined endocrine cells express the 2-5A synthetase enzyme as well as MHC class I antigen constitutively, but also by stimulation with IFN in vitro.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Interferon stimulates the expression of 2',5'-oligoadenylate synthetase and MHC class I antigens in insulin-producing cells. 172 88

IFN-gamma and TNF-alpha injure the pancreatic beta-cell and may be involved in the pathogenesis of autoimmune type 1 diabetes. Because the induction of IL-6 appears to be an important host cell response to injury, we have examined whether IL-6 is produced by murine pancreatic islets or rat insulinoma (RIN-m5F) cells after their exposure to IFN-gamma and TNF-alpha. Islet culture supernatants contained detectable IL-6 activity which was increased 6-fold when islets were exposed to IFN-gamma and 40- and 115-fold when islets were exposed to TNF-alpha and TNF-alpha + IFN-gamma, respectively. A mAb against murine IL-6 abolished (control and IFN-gamma) or significantly reduced (TNF-alpha and TNF-alpha + IFN-gamma) the IL-6 activity in islet supernatants. The magnitude for the effects of IFN-gamma and TNF-alpha on the production of IL-6 from mouse islets was found to be both time and dose dependent. Northern blot hybridization analysis of islet total cytoplasmic RNA with a cDNA probe to murine IL-6 revealed a band at 1.3 kb, the intensity of which increased in islets exposed to IFN-gamma + TNF-alpha. IL-6 activity was also detected in culture supernatants from RIN-m5F cells exposed to TNF-alpha + IFN-gamma. Islets cultured with rIL-6 secreted higher levels of insulin compared with control islets. Pancreatic islet cells, in all probability beta-cells, produce IL-6, the expression of which is up-regulated by IFN-gamma and/or TNF-alpha. In addition to a possible role in regulating pancreatic beta-cell function we propose that IL-6 produced by the pancreatic beta-cell may act as a costimulator for autoreactive B and T lymphocytes in autoimmune diabetes.
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PMID:Evidence for IL-6 production by and effects on the pancreatic beta-cell. 250 90

Insulin-dependent (type 1) diabetes mellitus (IDDM) is due to the selective autoimmune-mediated destruction of pancreatic beta cells possibly initiated by viruses. To elucidate the possible role of viruses and cytokines in the pathogenesis of IDDM, we have examined the effect of reovirus infection on beta cell major histocompatibility complex (MHC) expression and the effect of interferon-gamma (IFN-gamma) and tumour necrosis factor-alpha (TNF-alpha) on beta cell function in vitro. Infection of RIN-m5F (rat insulinoma) cells with reovirus-1 or reovirus-3 was associated with a tenfold increase in class 1 MHC protein and mRNA expression. Reovirus infection did not induced the expression of class 11 MHC by RIN-m5F cells. Exposure of reovirus to ultraviolet light almost completely abolished its ability to induce class 1 MHC protein expression on infected cells. Murine islets cultured for 3 days with IFN-gamma and/or TNF-alpha had a significantly reduced insulin response to glucose, which was more marked with a combination of the cytokines. During 6 days of culture in IFN-gamma plus TNF-alpha islets underwent noticeable degeneration associated with an 80% reduction in insulin content. These findings together with previous data suggest viruses and cytokines may have multiple roles in beta cell destruction, indirectly through enhanced MHC protein expression and directly through functional impairment and loss of viability.
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PMID:Viruses and cytokines: evidence for multiple roles in pancreatic beta cell destruction in type 1 insulin-dependent diabetes mellitus. 254 35

Monoclonal antibody 3A4 to islet cell surface antigen has been previously established in our laboratory, using hybridization of spleen lymphocytes from non-obese diabetic (NOD) mice transferred into immunologically incompetent recipient mice. In the present study, monoclonal islet cell surface antibody 5C12 could be newly obtained in the 10:1 ratio of NOD mice spleen cells and mouse myeloma cells (SP2/0) without any modifications. Protein A radioligand assay and indirect immunofluorescence on living cells showed that 5C12 antibody reacted to normal rat islet cells and cultured rat insulinoma cells (RIN-r), but not to cultured lymphocytes (Bri-7, IM-9) and Chang-liver cells. Analysis of 125I-labeled antibody binding revealed that unlabeled 5C12 effectively inhibited subsequent 125I-5C12 binding to RIN-r cells, whereas unlabeled 3A4 did not. The scatchard plot from these data showed the curvilinearity, and about 150,000 binding sites to antibody per RIN-r cell were counted. The treatment of RIN-r cells with papain and neuraminidase reduced the binding of 5C12 to RIN-r cells, whereas the effect of trypsin was not observed. Immunoprecipitation of 125I-labeled insulinoma cell lysates followed by SDS-PAGE and autoradiography indicated that 5C12 recognized 105K dalton cell surface protein in RIN-r cells. Immunoblotting also showed that 5C12 antibody recognized 105K dalton cell surface protein in RIN-r cells. These results demonstrated that 5C12 was an important tool for clarifying the immunoresponse against certain antigenic determinants on pancreatic B cells. Furthermore, 5C12 has not only qualitatively and quantitatively improved diagnostic methodology, but it may also provide new reagents useful to the treatment and prevention of type 1 diabetes.
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PMID:[An analysis of islet cell surface antigen defined by monoclonal islet cell surface antibody 5C12]. 354 94

T cells reacting with pancreatic islet beta cell proteins play a pivotal role in the pathogenesis of type 1 diabetes in experimental animal models and man, although the islet cell autoantigens against which these T cells are directed remain to be characterized. We have previously shown the presence of disease-related antigens residing in the transplantable RIN insulinoma membranes which are recognized by T cells from diabetic NOD mice. We now report on the establishment of CD4+, T cell lines reacting with insulinoma membranes from six newly diagnosed type 1 diabetic patients. Detailed examination of T cell lines from two patients revealed that both the lines continued to react with normal islet cell proteins and, interestingly, were also stimulated by antigens present in brain microsomes. The two T cell lines showed reactivity with different molecular weight proteins of the insulinoma membranes and both the lines were histocompatibility-linked antigen (HLA)-DR restricted. Although the insulinoma membrane preparation is known to contain glutamic acid decarboxylase (GAD), none of the six T cell lines proliferates in response to purified GAD. These T cell lines will be valuable in characterizing novel islet beta cell antigens which are likely to be implicated in type 1 diabetes.
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PMID:HLA-DR-restricted T cell lines from newly diagnosed type 1 diabetic patients specific for insulinoma and normal islet beta cell proteins: lack of reactivity to glutamic acid decarboxylase. 755 82

T cell clones reactive to beta-cell antigens prepared from different species were established in order to identify putative pathogenic T cells in human IDDM. We were able to generate T cell clones from patients, but not from controls, reactive specifically to the insulin secretory enriched fraction (ISG) of a rat insulinoma RIN cell line. This finding is suggestive of an in vivo priming by the antigen(s). To examine the relevance of these T cell clones in the pathogenesis of IDDM, we studied their cytokine profile. T cell clones from the newly onset patients had a Th1 cytokine profile, while those from the prediabetic patient were of the Th2 subtype. This segregation suggests that RIN-ISG contains antigen(s) involved in the pathogenesis of this disease, since IDDM is considered a cell-mediated or Th1 disease. Since two of these clones also responded to a hamster insulinoma cell line HIT, at least two antigens in RIN-ISG could be defined by this panel of T cell clones. Examination of CDR3 sequences confirmed the clonality of the dual-reactive T cell clones. The finding of HIT-reactive cells in IDDM patients may be useful in efforts to identify prediabetic patients for immune intervention. Dual reactivity may provide a better prognosis than single reactivity. In contrast to T cell clones reactive to insulinomas, T cell clones reactive to normal human ISG were not found after over 200 clones were screened. In addition, RIN-ISG specific clones did not respond to either normal human or rat ISG, suggesting that IDDM antigens are below detectable levels in normal beta cells.
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PMID:Insulin-secretory-granule specific T cell clones in human IDDM. 761 50

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

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

Like most cytokines, IL-1 transduces its signals for growth, differentiation and diverse cellular functions after binding to specific receptors on the cell surface. Up to now two IL-1 receptors have been reported, type I which induces signal transduction and type II which binds IL-1 but does not transduce signalling. By using the rat insulinoma RIN-5AH cell line that expresses both types of receptor mRNA, and computer-assisted binding analysis, we show that interleukin-1 beta (IL-1 beta) binds to a single class of high affinity receptors with a Kd of 155 pmol/l. The average number of receptors on adherent cell layer is calculated to be 7300 per cell. 125I-IL-1 beta binding can be competed out by unlabelled IL-1 beta. 125I-IL-1 alpha binding can be also obtained and is subject to competition by cold IL-1 alpha. Its saturation curve, however, varies within experiments due to differential receptor up-regulation. These results have also been confirmed by FACS analysis using specific antibodies to type I and II IL-1 receptors, where type I receptor antibody binds strongly to RIN-5AH cells, and type II receptor antibody shows weak staining, also due to inadequate receptor up-regulation. In order to determine whether functional signal transduction occurs via the receptors detected, it is shown that IL-1 beta is able to induce MHC class II antigen expression on the surface of the RIN cells, whereas IL-1 alpha is unable to do so, indicating different signal reception by the cells. IL-1 beta-induced class II upregulation shows moderate signs of p21ras or/and PKC dependency, whereas IL-1 alpha strongly activates both pathways that probably regulate different functions. Finally, both IL-1 alpha and beta induce nitric oxide (NO) production in a time-dependent fashion which appears to be unrelated to the signals and pathways described, but may be involved in the onset of autoimmune type 1 diabetes.
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PMID:IL-1 beta transduces different signals than IL-1 alpha leading to class II antigen expression on beta-insulinoma RIN-5AH cells through specific receptors. 902 92


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