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)

Genetic factors clearly contribute to the development of autoimmune destruction of pancreatic beta cell in IDDM. The HLA class II genes have an important role in the pathogenesis of Japanese IDDM as they do in Caucasians. Particular HLA class II alleles and haplotypes contribute to the IDDM susceptibility/resistance in Japanese. In the 5' insulin gene polymorphism, the shorter insertion (class 1 allele) is predominant in Japanese, and thus is not associated with IDDM. Subdivision of the class 1 alleles also failed to show an association with Japanese IDDM. The insulin gene region appears not to be a valuable genetic marker for IDDM in Japanese. Recently, we found an association of polymorphism in the IFN-gamma gene with Japanese IDDM.
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PMID:[Non-MHC susceptibility genes in Japanese subjects with insulin-dependent diabetes mellitus (IDDM)]. 798 10

Macrophages are present in the initial phase of the autoimmune process involved in the destruction of the endocrine pancreas in IDDM via the secretion of cytokines such as IL-1 beta. Macrophages also secrete lysozyme. Besides its action on the bacterial cell wall, lysozyme has an important physiological and immunological role. Human lysozyme is an in-situ modulator of the inflammatory reactions. We investigate the protective role of human lysozyme in vitro against the cytotoxic effect of IL-1 beta or of IL-1 beta combined with IFN-gamma on isolated rat islets. Precultured newborn rat islets were incubated with human or chicken lysozyme (50.000 U/ml) over 3 days. Human IL-1 beta (100 U/ml) or IL-1 beta (5 U/ml) + INF-gamma (100 U/ml) was added for the last 2 days and tritiated thymidine for the last 24 hrs. In another set of experiments, islets were exposed simultaneously to human lysozyme and IL-1 beta. Only pretreatment with human lysozyme abolished the lowering of the labelling index of the islet cell induced by IL-1 beta or by IL-1 beta and INF-gamma. Pycnotic nuclei were abundant in islets treated with IL-1 alone while they were not when islets were pretreated with human lysozyme. Chicken lysozyme had no protective effect in the same protocol. Human lysozyme was not protective when applied simultaneously with IL-1. Pretreatment of the islets by human lysozyme does not prevent the reduction of the insulin secretion induced by IL-1 beta. Human and chicken lysozyme differ further in their action when tested on fibroblasts proliferation. Only human lysozyme stimulates the latter. In conclusion, only human lysozyme seems to have a protective effect against the cytotoxicity of IL-1 in combination or not with IFN-gamma on islet cells in vitro. Moreover, to be protected, the islets have to be pretreated with lysozyme before the IL-1 application. Our in vitro results imply that natural aspecific immunity and its relation to the secretory function of the macrophage might be crucial for the prevention of the initial assault responsible for the onset of the immune process leading to insulin dependent diabetes.
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PMID:Prevention of the cytotoxic effect of IL-1 by human lysozyme on isolated rat islets. 807 Mar 6

Cytokines produced by islet-infiltrating mononuclear leukocytes may be involved in islet beta-cell destruction and IDDM. To determine which cytokine(s) might be involved in islet beta-cell destruction, we used a reverse transcriptase-polymerase chain reaction assay to compare levels of cytokine mRNA expression in mononuclear leukocytes freshly isolated from islets of four groups of BB rats aged 60-75 days: diabetes-prone (DP) rats, DP rats protected from diabetes by injection of complete Freund's adjuvant (CFA) at age 25 days, acutely diabetic rats, and diabetes-resistant (DR) rats. We found that islet mononuclear leukocyte levels of gamma-interferon (IFN-gamma) mRNA were significantly higher in DP and diabetic rats than in DR rats, whereas CFA-treated DP rats had similar IFN-gamma mRNA levels to DR rats. Also, interleukin (IL)-2 mRNA levels tended to be higher in islet leukocytes from DP and diabetic rats than from DR rats. Tumor necrosis factor-alpha, IL-4, and IL-10 mRNA levels were not significantly different in islet leukocytes from the four groups of rats. These findings suggest that production of T-helper 1 (Th1)-type cytokines, IFN-gamma and IL-2, by islet-infiltrating cells in BB rats is associated with beta-cell destruction and IDDM development.
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PMID:Cytokine gene expression in pancreatic islet-infiltrating leukocytes of BB rats: expression of Th1 cytokines correlates with beta-cell destructive insulitis and IDDM. 863 48

A possible role of transporter associated with antigen processing (TAP)-1 in the pathogenesis of IDDM has been investigated by examining the level of TAP-1 expression in the islets of IDDM pancreas and by studying in vitro the effect of interferon (IFN)-gamma, IFN-alpha, and tumor necrosis factor-alpha in TAP-1 expression by cultured islet cells. A remarkable hyperexpression of TAP-1 has been found in the endocrine cells (beta and non-beta) of IDDM islets, which constitutes first evidence of hyperexpression of this molecule in the target organ of an autoimmune disease. TAP-1 hyperexpression correlated clearly with HLA class I hyperexpression but only very partially with HLA class II ectopic expression. IFN-gamma and IFN-alpha, both cytokines putatively implicated in IDDM pathogenesis, were capable of inducing TAP-1 protein (as assessed by immunofluorescence flow cytometry) and message (by Northern blot analysis and reverse transcription polymerase chain reaction). These findings suggest that under the influence of cytokines (most probably IFN-alpha) beta-cells may express in their surface a high density of HLA class I-peptide complexes that may facilitate their recognition and lysis by low-affinity CD8+ T-cells.
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PMID:Expression of transporter associated with antigen processing-1 in the endocrine cells of human pancreatic islets: effect of cytokines and evidence of hyperexpression in IDDM. 863 53

Insulin-dependent diabetes mellitus (IDDM) is an autoimmune disease in which cytokines are thought to play an important role in beta-cell destruction and immune regulation. A major target of beta-cell autoimmunity in IDDM is the enzyme glutamate decarboxylase (GAD). We hypothesized that cytokines in the insulitis lesion modulate the synthesis of GAD. This may, in turn, modify the rate of beta-cell destruction. Accordingly we cultured rat islets in the presence and absence of cytokines, and measured synthesis of both isoforms of GAD, GAD65 and GAD67, by [35S]methionine incorporation and immunoprecipitation with a rabbit antiserum that recognizes both GAD65 and GAD67. Incubation of islets with interleukin (IL)-1 beta (1 ng/ml, 24 h), tumour necrosis factor alpha (TNF-alpha; 200 units/ml, 24 h) or interferon gamma (IFN-gamma; 500 units/ml, 72 h) significantly decreased the synthesis of both GAD65 and GAD67, but reduced neither total protein synthesis nor insulin accumulation in the medium or content. Incubation of islets for 24 h in IFN-alpha (1000 units/ml), TNF-beta (50 ng/ml), IL 2 (1000 units/ml), IL-4 (100 ng/ml), IL-6 (10 ng/ml), IL-10 (20 ng/ml), IL-12 (10 ng/ml) or transforming growth factor beta 2 (TGF-beta 2; 5 ng/ml) did not significantly alter GAD65 or GAD67 synthesis. Inhibition of GAD65 and GAD67 protein synthesis by IL-1 beta, TNF-alpha or IFN-gamma was reversed by co-incubation with the nitric oxide synthase inhibitor, NG-monomethyl arginine (NMMA). Expression of both GAD65 and GAD67 mRNA, measured by RNase protection assay, was also decreased by IL-1 beta and completely restored to baseline levels by NMMA. Thus the synthesis of both isoforms of islet GAD is selectively decreased in the presence of IL-1 beta, TNF-alpha or IFN-gamma by a NO-mediated mechanism, probably at the level of cytokine gene transcription. As GAD autoimmunity has been previously shown to have a pathogenic role in an animal model of IDDM, its inhibition by cytokines might limit the immune response, thereby regulating the rate of beta-cell destruction in IDDM.
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PMID:Cytokine regulation of glutamate decarboxylase biosynthesis in isolated rat islets of Langerhans. 876 Mar 54

Insulin-dependent diabetes mellitus (IDDM) in the non-obese diabetic (NOD) mouse results from effector T cell-mediated autoimmune processes directed against pancreatic beta cells. These effector T cell-mediated beta cell-specific autoimmune processes can be blocked by transfusion with supressor T cells. The CD4+ autoreactive T cell clone, NY4.2, isolated from lymphocytes infiltrating the pancreatic islets of NOD mice was transfused into young NOD mice and none of the animals became diabetic. Similarly, when NY4.2 cells were transfused into acutely diabetic NOD mice prior to syngeneic islet transplantation, the grafted islets were not destroyed and the animals maintained normoglycaemia. This investigation was initiated to determine how our cloned CD4+ autoreactive suppressor T cells are able to inhibit effector T cell-mediated beta cell destruction in NOD mice. We found that NY4.2 cells, which responded to self MHC class II determinants, had a significant immunosuppressive effect on proliferative responses of splenic effector T cells from NOD mice. This suppressive activity of the NY4.2 cells was a result of soluble factors secreted by them. The clone was found to produce substantial amounts of transforming growth factor beta (TGF-beta), IL-10, and IFN-gamma, but not IL-2 or IL-4, indicating that this T cell clone is not a member of either the classic Th1 or Th2 cell type. The suppressive activity of NY4.2 cells was abrogated by treatment with anti-TGF-beta antibodies, but not by treatment with anti-IL-10 or anti-IFN-gamma antibodies. On the basis of these observations, we suggest that a new type of CD4+ suppressor T cell, NY4.2, by secreting TGF-beta, can prevent effector T cell-mediated beta cell destruction.
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PMID:A new type of CD4+ suppressor T cell completely prevents spontaneous autoimmune diabetes and recurrent diabetes in syngeneic islet-transplanted NOD mice. 881 68

Insulin-dependent diabetes mellitus (IDDM) in the non-obese diabetic (NOD) mouse results from a T lymphocyte mediated destruction of the insulin-producing beta cells of the pancreas and serves as a model for human type I diabetes. The NOD mouse develops insulitis at 4 weeks of age and diabetes later in life. It has previously been shown that a T helper 1 (Th1) response to the islet antigen, glutamic acid decarboxylase (GAD65, henceforth GAD) spontaneously develops in NOD mice concurrent with the onset of lymphocytic infiltration into the islets (insulitis). The proliferative T cell response in the spleen is initially confined to the carboxy-terminal region of GAD65 (peptides 509-528 and 524-543) followed by a progression to nearby determinants and a variety of upstream determinants. We have produced a set of overlapping synthetic peptides spanning the 509-543 region of GAD and surveyed the responses raised by immunization with peptide GAD(524-543), which is the more immunogenic of the two peptides. NOD mice immunized with GAD(524-543) demonstrate splenic proliferative responses to 524-538 and 527-541 but not to 521-535 or 530-543. Four T cell hybridomas were produced from spleen cells of GAD(524-543)-immunized NOD female mice. Each hybridoma displayed a unique cytokine profile when stimulated with peptides 524-538 and 527-541, assaying IL-2, IFN-gamma, and IL-5 production by peptide-stimulated hybridomas. To identify MHC and TCR contact residues critical for the stimulation of the hybridomas, a truncated peptide (GAD 526-538) and a panel of analogue peptides were synthesized containing single-amino acid substitutions. Hybridoma 35.13.2 was non-responsive to the truncated peptide and all of its variants. However, the four residues 530 (A), 531 (P), 536 (R), and 537 (M) were found to be critical for the activation of the three remaining hybridomas, suggesting that these positions in the GAD-524-543 determinant were MHC binding residues or conserved TCR contact sites.
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PMID:T cells with multiple fine specificities are used by non-obese diabetic (NOD) mice in the response to GAD(524-543). 881 72

Intracerebral infection of susceptible mouse strains with Theiler's murine encephalomyelitis virus (TMEV) results in an immune-mediated demyelinating disease (TMEV-IDD) similar to human multiple sclerosis (MS). Although the etiology of MS remains unknown, a role of an infectious agent has been implicated in its onset. Previously we have shown the ability of bacterial lipopolysaccharide (LPS) to alter susceptibility to TMEV-IDD in genetically resistant C57BL/6 mice. In this study, the potential of LPS to alter pathogenicity of a low/non-pathogenic variant of TMEV was investigated. After intraperitoneal treatment of genetically susceptible SJL/J mice with LPS before and during viral infection, 80-100% of the mice developed clinical symptoms, while without LPS treatment none of the mice were affected. However, clinical severity in these LPS-treated mice was much milder than the level induced by the wild type pathogenic virus. Increased susceptibility to the disease after LPS treatment did not correlate with splenic T cell proliferative responses against viral antigens. However, by reverse transcriptase polymerase chain reaction (RT-PCR) analyses, an early increase in the production of Th1-type proinflammatory cytokine messages (e.g., interferon-gamma [IFN-gamma] and enhancement of viral persistence was observed in the CNS of LPS-treated, virus-infected animals as compared to mice infected with the variant virus alone. These results indicate that environmental factors such as a bacterial infection (e.g., LPS) promoting proinflammatory cytokine production can significantly enhance the pathogenicity of demyelination induced by a normally non-pathogenic virus.
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PMID:Treatment with lipopolysaccharide enhances the pathogenicity of a low-pathogenic variant of Theiler's murine encephalomyelitis virus. 889 89

IL-4 has been shown to protect against diabetes development in rodent models of insulin-dependent (type I) diabetes mellitus (IDDM). To study IL-4 production in human IDDM, PBMC from IDDM patients and controls were stimulated in vitro with PHA, anti-CD3 mAb, or PMA and ionophore. IL-4 production by PBMC or T cells was strongly impaired in IDDM patients at diabetes onset (p < 0.0001). The mean IL-4 response of patients in the honeymoon stage was higher than the mean of the new onset patients, but significantly lower than the control group (p = 0.01). Patients with IDDM of longer duration (>2 yr) showed a wide range of IL-4 responses and their mean IL-4 response was lower than the controls; however, the difference was not statistically significant. IL-4 mRNA levels were measured using competitive reverse transcription PCR. The results showed greatly reduced mRNA levels in new onset IDDM. In contrast, IL-1 production (measured by ELISA) and IFN-gamma mRNA (measured by reverse transcription PCR) were not significantly different in IDDM. The results suggest an imbalance of inflammatory vs anti-inflammatory cytokine production at the onset of IDDM. Deficient IL-4 production as seen at the onset of IDDM may play a role in the development of diabetes by allowing the inflammatory/autoimmune process in pancreatic islets to progress.
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PMID:Decreased IL-4 production in new onset type I insulin-dependent diabetes mellitus. 890 50

The infiltration of pancreatic islets by mononuclear cells is the hallmark of the development of insulin dependent diabetes mellitus (IDDM) in the NOD mouse, an animal model for human IDDM. The aim, of this study was to correlate adhesion molecule expression with the degree of islet infiltration and to compare Th1- and Th2-driven islet inflammation. Cryostat sections of NOD mouse pancreata before and after diabetes development were analysed by semiquantitative immunohistochemistry. NOD mouse islets did not show the expression of ICAM-1, LFA-1, L-selectin and VCAM-1 prior to infiltration by mononuclear cells. Furthermore, islets with early stage insulitis (grade 1, periinsular location of small infiltrates) still were devoid of adhesion molecule expression. ICAM-1 and LFA-1 were first demonstrable in islets with strong periinsular infiltrates (insulitis grade 2) while L-selectin and VCAM-1 were only seen in islets with mild or strong intraislet infiltration (grade 3-4). Adhesion molecules were demonstrable in areas of macrophage and T-lymphocyte infiltrates but not in adjacent endocrine islet tissue. Islets of all infiltration stages contained Th2 lymphocytes (positive for IL-4). Substantial numbers of Th1 cells (positive for IFN-gamma, TNF-alpha, IL-2 and/or IL-2 receptor) were observed only after acceleration of diabetes development by a single injection of cyclophosphamide (250 mg/kg i.p.). Interestingly, the adhesion molecule expression pattern in islets with "Th1' versus "Th2 insulitis' was not different. In conclusion, the expression of adhesion molecules in islets during the development of autoimmune diabetes does not precede mononuclear infiltration but probably occurs in response to the activation of initial small infiltrates. ICAM-1 and LFA-1 expression is seen prior to L-selectin and VCAM-1. However, adhesion molecule expression during Th1 versus Th2 cell infiltration is very similar, suggesting similar adhesion molecule requirements of the two Th subsets.
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PMID:Differential expression of ICAM-1 and LFA-1 versus L-selectin and VCAM-1 in autoimmune insulitis of NOD mice and association with both Th1- and Th2-type infiltrates. 893 79

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