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)

Insulin-dependent diabetes mellitus (IDDM) results from a T cell-dependent autoimmune destruction of insulin-producing pancreatic beta cells. In the present study, expression of adhesion molecule ICAM-1 (CD54) on pancreatic beta cells was studied in normal, obese hyperglycemic (ob/ob), and nonobese diabetic (NOD) mice. Freshly isolated pancreatic beta cells from ob/ob mice did not express ICAM-1, but treatment of the cells with IL-1-beta, TNF-alpha, or INF-gamma strongly induced its expression as measured by immunofluorescence flow cytometry. The cytokines acted in a dose- and time-dependent manner. Maximal induction by either cytokine occurred at 24 hr and thereafter expression decreased, except for INF-gamma. Immunoprecipitation from IL-1-beta-treated beta cells demonstrated a cell-surface glycoprotein with an apparent molecular weight of 95 kDa. ICAM-1 expression was undetectable on pancreatic beta cells of normal and ob/ob mice as measured by immunohistochemistry. In NOD mice at different ages (1 to 6 months) ICAM-1 was also undetectable on beta cells, in contrast to the strong expression on infiltrating mononuclear cells. The present study indicates that mouse pancreatic beta cells, under certain conditions, can express ICAM-1.
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PMID:Induction of intercellular adhesion molecule-1 (CD54) on isolated mouse pancreatic beta cells by inflammatory cytokines. 136 Mar 42

Cytokines, in particular IL-1, released mainly by infiltrating macrophages, can be one of the key mediators of immune-induced beta-cell destruction in IDDM. IL-1 is able to induce suppression of insulin release and biosynthesis in cultured rat pancreatic islets. In addition, the cytokine shows clear cytotoxic effects leading to beta-cell death. The proposed mechanisms of action of IL-1 after binding to the beta-cell receptors are varied. Concerning the cytotoxic effects of the cytokine, the role of oxygen free radicals, mainly derived from arachidonate metabolism (see Fig. 1) is clear, and possibly potentiated by a cytosolic Na(+)-mediated alkalinization of the beta-cell exposed to the cytokine. In fact, an increased influx of Na+ may explain some of the cytotoxicity since it results in concomitant water uptake leading to swelling of the endoplasmic reticulum. NO formation also seems to be related to the cytokine-induced cytotoxicity since inhibition of the NO synthase abolishes the effects of the cytokine (see Fig. 1). In relation to the inhibitory effects of the cytokine on the beta-cell, different studies point toward almost all known second messenger systems already described for several hormones, such as cAMP formation, increased phospholipase C activity, changes in cytosolic Ca++, and altered gene transcription (see Fig. 1). Of particular interest is the protease activation associated with IL-1 (a serine protease) that seems to be clearly connected with the effects of the cytokine upon the beta-cell. In conclusion, the different studies devoted to the problem of IL-1 signal transduction on the beta-cell seem to indicate that the action of the cytokine on the pancreatic insulin-secreting cells is not associated with an individual second messenger system but rather seems to be related to a plurifactorial transduction system.
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PMID:Interleukin-1 and beta-cell function: more than one second messenger? 142 86

Insulin-dependent diabetes mellitus is characterized by progressive autoimmune destruction of pancreatic Beta cells mediated by ill-defined effector mechanisms. Experimental data suggest that cytokines, e.g. interleukin 1 and tumor necrosis factor, could play a fundamental role. The aim of this study was to analyze the effect of recombinant IL-1 beta (rIL-1 beta) on both islet functional capacity and morphology, using long-term cultures and various glucose concentrations. Islet cultured with 1 g/l (5.5 mmol/l) glucose maintained normal insulin- secretion and morphology for more than two months. In contrast, islets cultured with 2 g/l (11 mmol/l) glucose showed an altered insulin secretion and a shorter survival (40 days). At 11 g/l (60 mmol/l) glucose, islets died by 2 weeks of culture. rIL-1 beta exerted a cytotoxic effect on islet cells only when added to cultures containing supraphysiological glucose concentrations. But, in the presence of 1 g/l glucose, the addition of rIL-1 beta (40 ng/ml) for prolonged periods (14 days), did not alter islet function. Our results suggest that in auto-immune type I diabetes, IL-1 beta represents an aggravating factor in lesion formation more than a primary pathogenic mechanism.
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PMID:The effects of interleukin-1 on pancreatic beta cell function in vitro depend on the glucose concentration. 147 95

Cytokines are known to play an important role in autoimmunity and have been suggested to be involved in the pathogenesis of insulin-dependent diabetes (IDDM). In the present study we have measured IL-1, IL-2, IL-4, IL-6, interferon-gamma (IFN-gamma) and tumour necrosis factor (TNF) (using both immunoassays and bioassays) in sera from 50 patients affected by IDDM at the time of clinical diagnosis and 51 age and sex matched controls. Detectable levels of IL-1, IL-2, IL-6 and IFN-gamma were found in the serum of a small percentage of subjects and were not significantly different between patients and controls. IL-4 was detectable in a higher number of both patients and controls and circulating TNF-alpha (greater than 1 U/ml) was found in a percentage of patients (24%) significantly higher than controls (P less than 0.01). Raised levels of TNF-alpha were detectable using an immunoenzymatic assay whereas TNF bioactivity in these samples was negligible. We conclude that the presence of immunoreactive TNF-alpha in the patient's sera may reflect an increased localized production of this cytokine at pancreatic level. However, the measurement in serum of other cytokines does not add information on the role that they may play in the pathogenesis of IDDM.
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PMID:Cytokines in sera from insulin-dependent diabetic patients at diagnosis. 193 94

Interleukin 1 beta has been proposed to play an essential role in the pathogenesis of IDDM by direct interaction with the pancreatic beta-cell. Glucocorticoids are widely used as immunosuppressive agents and have been suggested to interfere both with the production and action of interleukin 1. The aim of the present study was to evaluate the interaction between cortisol and interleukin-1 on the pancreatic beta-cell function in vitro. Newborn rat islets were precultured for seven days before they were exposed to interleukin 1 with or without addition of cortisol. The release of insulin to the culture medium was followed and the insulin content and biosynthesis were measured after one week in culture. Cortisol, 10(-6) mol/l, resulted in a 50% lower rate of release during the culture period and a similar reduction in storage and biosynthesis of insulin in the islets at the end of the culture period. In the control islets interleukin 1, 0.5 microgram/l, resulted in an early increase in insulin release followed by a marked reduction. In the cortisol-treated islets interleukin 1 increased the release up to 72 h followed by a moderate decrease. In the control islets, interleukin 1 reduced the insulin content to about 50%, whereas in the cortisol-treated islets interleukin 1 resulted in an even greater reduction, to about 30%. This additional effect of cortisol seems not to be due to an augmented cytotoxic effect of interleukin 1 as indicated by the DNA content of the islets and the viability of the cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cortisol increases the susceptibility of rat islets to interleukin 1. 195 63

IL-1 and TNF alpha are assumed to be major mediators of islet cell destruction during the pathogenesis of type 1 diabetes. Here we show by neutralization of the two cytokines with excess antibody that IL-1 and TNF alpha do not contribute to the cytotoxic activity of activated macrophages towards isolated islet cells. However, islet cells can be protected from lysis by depleting the culture medium of L-arginine or by adding the antagonist NG-monomethyl-L-arginine, both of which inhibit the generation of nitric oxide by activated macrophages. These results indicate a role of nitric oxide or its equivalent, the endothelium-derived relaxing factor in the development of type 1 diabetes. This is the first report showing that nitric oxide may damage normal cells and thus may be a hitherto unrecognized pathogenetic factor in tissue inflammation and autoimmune disence.
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PMID:Activated macrophages kill pancreatic syngeneic islet cells via arginine-dependent nitric oxide generation. 202 50

Several lines of evidence suggest that autoimmune processes are involved in the pathogenesis of Type I diabetes mellitus. Monocyte-macrophages are among the first mononuclear cells to invade the islets of Langerhans in various murine diabetic syndromes, and blockade of monocyte-macrophage functions by injection of silica particles in these animals prevents the development of the disease. Monokines such as interleukin 1 (IL-1) are known to mediate tissue lesions by inducing collagenase and prostaglandin E2 (PGE2) production. In addition, IL-1 has been demonstrated to inhibit proinsulin biosynthesis and secretion in pancreatic islet cells. Using 3-d cultured rat islets we have found that (a) the lowering of insulin release induced by human recombinant IL-1 (rIL-1) is dose-dependent with a decrease to 21% of control value at the higher rIL-1 tested concentration (500 pg/ml), and about two times more pronounced than the decrease in cellular insulin content, which reached 44% of control value at the highest rIL-1 concentration; (b) rIL-1 stimulates islets to secrete PGE2 but the addition of indomethacin, which blocks PGE2 production, does not affect the decrease in insulin release and content caused by IL-1, suggesting a limited role of endogenous PGE2 as a mediator in this system; and (c) a specific, noncytotoxic IL-1 inhibitor, shown in other cell systems to block the binding of IL-1 to its receptor, prevents the rIL-1 lowering of insulin content and minimizes the decrease of insulin release.
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PMID:A natural interleukin 1 (IL-1) inhibitor counteracts the inhibitory effect of IL-1 on insulin production in cultured rat pancreatic islets. 252 7

Anti-class II ag mAb (DR and DQ) inhibited, in a dose-dependent manner, LPS-induced IL-1 and TNF secretions from human monocytes (34 to 95% inhibition). The potentiating effect of IFN-gamma on LPS-induced TNF secretion (15.3 +/- 0.7 to 44 +/- 0.6 ng/ml) was also blocked by anti-class II ag mAb (44 +/- 0.6 to 0.3 +/- 0.03 ng/ml). We also report a relationship between interindividual differences in monocyte IL-1 and TNF secretions and the HLA-D-encoded genetic polymorphism. Heterozygotes were, in general, higher secretors of those cytokines than homozygotes. Analysis of these secretions in heterozygotes demonstrated a differential effect of certain haplotype combinations (i.e., DR2-DR4 vs DR2-DR3) that could be arbitrarily characterized as being "low" or "high" secretors (6,230 +/- 2,950 vs 13,029 +/- 6,541 cpm for IL-1, and 12 +/- 10 vs 25 +/- 15 ng/ml for TNF, p = 0.006 and 0.048). DR-associated Dw subtypes appeared to account for differences within certain haplotype combinations (Dw18 vs Dw19 in DRw13/DR4) (11,227 +/- 3,648 vs 17,166 +/- 3,176 cpm for IL-1, and 13 +/- 9 vs 25 +/- 10 ng/ml for TNF, p = 0.02 and 0.047). Interindividual differences were better explained by differences in LPS sensitivity than by differences in the kinetics of secretion and related not to the secretory process itself but to the rate of cytokine synthesis. Finally, there were no relationships between high secretor genotypes and IDD high risk genotypes. Thus, we conclude that, a) LPS-induced IL-1 and TNF secretions are, at least in part, regulated by class II MHC molecules, b) that HLA-D region-encoded genetic polymorphism accounts for interindividual differences in these secretions, and c) that the HLA-associated risk to develop IDD is not explained by these cytokine secretory differences as previously proposed.
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PMID:Involvement of class II MHC molecules in the LPS-induction of IL-1/TNF secretions by human monocytes. Quantitative differences at the polymorphic level. 278 51

Insulin-dependent diabetes mellitus (IDDM) may be mediated in part by an autoimmune mechanism, as suggested by associated cytologic and serologic phenomena, e.g., insulitis, beta-cell necrosis, and the presence of both islet cell and insulin antibodies. Immunological approaches to the prediction and intervention in the progression of beta-cell destruction in this disease are under evaluation. A recent hypothesis is that cytokines, including interleukin 1 (IL-1), play causative roles in such autoimmune processes. Several studies have convincingly demonstrated that IL-1 is a potent modulator of beta-cell function and can potentiate or inhibit glucose-induced insulin secretion, depending on the concentration and length of exposure to IL-1. IL-1 alone or in concert with other cytokines is cytotoxic to beta-cells. The cellular mechanisms responsible for the potent effects of IL-1 on the beta-cell are unknown and just beginning to emerge. Although speculative at this time, this perspective delineates cellular mechanisms that are likely to represent possible primary sites for the IL-1 action on beta-cells. A mechanistic understanding of the effects of IL-1 on the beta-cell may clarify its role in modulating insulin release in vivo or yield insight into the pathogenesis of IDDM.
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PMID:Descriptive and mechanistic considerations of interleukin 1 and insulin secretion. 304 64

Recent observations suggest a role for interleukin 1 (IL-1), a macrophage-derived cytokine, in the autoimmune B cell destruction, which is observed in type 1 diabetes. In the present study we have investigated the effects of IL-1 and two other cytokines, namely tumor necrosis factor (TNF) and interferon-gamma (IFN-gamma) on the pancreatic B cell paying particular attention to insulin production and glucose metabolism. Rat pancreatic islets were isolated and kept in tissue culture for 5 days. The islets were subsequently transferred to media containing medium RPMI 1640 plus 0.5% human serum with or without additions of human recombinant preparations of either IL-1 (25 U/ml), TNF (1000 U/ml), or IFN-gamma (500 U/ml), and cultured for another 48 h. After the culture period the islets were subjected to light microscope examination and different functional tests in short-term incubations in the absence of cytokines. IL-1 was found to reduce insulin release in culture and totally inhibit glucose-stimulated insulin release in short-term incubations. Islet (pro)insulin biosynthesis, glucose oxidation, and oxygen uptake at 16.7 mM glucose were partially inhibited by IL-1. The DNA content of islets cultured with IL-1 was decreased and may partly explain these latter findings. However, inhibition of glucose oxidation could not be seen in islets exposed to IL-1 in short-term experiments only. By light microscopy there were marked signs of degeneration in IL-1 treated islets. TNF and IFN-gamma were essentially without effect on islet morphology or function. The results of this study indicate that IL-1 may be cytotoxic to islet B cells. The primary toxic action of IL-1 seems to involve factors other than an impaired islet glucose metabolism.
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PMID:Inhibitory effects of interleukin 1 on insulin secretion, insulin biosynthesis, and oxidative metabolism of isolated rat pancreatic islets. 330 37

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