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)

The non-obese diabetic (NOD) mouse is an animal model of human insulin dependent diabetes mellitus (IDDM). In this strain, the serum concentration of tumor necrosis factor-alpha (TNF alpha) after OK432 (a streptococcal preparation) stimulation is much lower than in any other non-diabetic control strain. Female NOD mice which have a higher incidence of diabetes have significantly lower TNF alpha level (6.5 +/- 4 U/ml, mean +/- SEM) than do male NOD mice (21 +/- 5 U/ml) (P < 0.02) which have lower incidence of diabetes. On the basis of these results, we designed a prospective study to evaluate the relationship between the serum TNF alpha concentration and the incidence of diabetes in individual male NOD mice. Mice were studied until 30 weeks of age. During this period four of eight mice with a low TNF alpha level (TNF alpha < or = 1.1 U/ml) became diabetic, whereas none of eighteen mice with a high TNF alpha level (TNF alpha > 1.1 U/ml) developed overt diabetes. These results indicate that by measuring of endogeneous TNF alpha level after stimulation by OK432, one could predict IDDM in male NOD mice.
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PMID:Prediction of insulin dependent diabetes mellitus in non-obese diabetic mice by the endogeneous tumor necrosis factor-alpha level. 128 40

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

A lipopolysaccharide from wheat flour (LPSw) which was isolated and characterized is shown to exert definitely a suppressive effect on incidence of type 1 diabetes in mice. Therapeutic effect on type 2 diabetes in patients was also obtained, though only from preliminary results. The percutaneous route of administration is most favorable. The important role that precursor tumor necrosis factor, free or cell bound, may play in this mechanism is discussed.
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PMID:Homeostasis as regulated by activated macrophage. V. Suppression of diabetes mellitus in non-obese diabetic mice by LPSw (a lipopolysaccharide from wheat flour). 152 28

Interleukin-1 (IL-1), tumor necrosis factor (TNF), and interferon-gamma (IFN gamma) inhibit insulin release and may be cytotoxic to isolated rodent pancreatic islets. In this study we examined the effects of IL-1, TNF, and IFN gamma on the viability and hormone secretion of islets isolated from adult human pancreas and maintained in monolayer culture. IL-1 and TNF were cytotoxic to the islet cells (20-30% cell lysis) in a 51Cr release cytotoxicity assay, and IFN gamma had only small effects (less than 10% lysis). Combination of maximally cytotoxic concentrations of IL-1 (10 U/mL) and TNF (10(3) U/mL) produced an additive cytotoxic effect. IFN gamma (10(3) U/mL) acted synergistically with IL-1 and TNF, and the three cytokines added together produced maximal islet cell lysis (46.4 +/- 4.3%). Assay of insulin and glucagon in the islet monolayers revealed that IL-1, TNF, and IFN gamma inhibited both B- and A-cell secretory functions; however, only IL-1 and TNF produced permanent decreases in insulin and glucagon contents in the islet cultures. These findings indicate that IL-1 and TNF, as single agents, are cytotoxic to human islet cells, and that this cytotoxicity can be amplified by combining the cytokines and/or adding IFN gamma. However, the lack of specificity for B-cells in vitro suggests that additional factors might be operative in vivo for the cytokine products of macrophages and lymphocytes infiltrating islets to produce the B-cell-specific damage characteristic of type 1 diabetes.
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PMID:Cytotoxic effects of cytokines on human pancreatic islet cells in monolayer culture. 211 42

Aberrant Ia antigen expression has been implicated in the pathogenesis of type 1 diabetes. Ia antigen expression was induced on isolated B10.BR murine islet parenchymal cells by culturing them for 5 days with lymphokine supernatants containing interferon-gamma (IFN-gamma) or with recombinant murine IFN-gamma + recombinant tumor necrosis factor. Ia positivity was confirmed by indirect immunofluorescence. Islets cultured for 5 days without cytokines were Ia-negative. Purified B10.BR islets allografted into the portal veins of C57BL/6J mice do not reject, which allowed the authors to determine whether aberrant expression of Ia on parenchymal cells has a deleterious effect on allograft survival. Ia-positive or Ia-negative islets were transplanted via the portal vein into diabetic C57BL/6J mice. All mice remained normoglycemic until they were killed at 30 to 60 days. Well-granulated islet allografts were identified histologically in all mice. The experiment was repeated using Balb/cJ mice as donors. Purified Balb/cJ islets are rapidly rejected by C57BL/6J mice. Induction of Ia expression on Balb/cJ islets significantly improved allograft survival. These findings indicate that Ia-positive islet cells do not induce rejection in these allograft models but may actually have a protective effect.
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PMID:Induction of Ia antigen expression on murine islet parenchymal cells does not diminish islet allograft survival. 253 14

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

It has been recently reported that human pancreatic islets in tissue culture produce nitric oxide (NO) and show a decreased function when exposed for 6 days to combinations of cytokines (interleukin-1 beta (IL-1 beta) + tumor necrosis factor-alpha (TNF-alpha) + interferon-gamma (IFN-gamma). Here we study the effects of nicotinamide (Nic; 10 or 20 mmol/l) on these deleterious effects of cytokines (50 U/ml IL-1 beta + 1000 U/ml TNF-alpha + 1000 U/ml IFN-gamma). Islets were isolated from 8 human pancreata at the Central Unit of the beta-Cell Transplant, Brussels, sent to Uppsala and, after 3-5 days in culture, exposed for 6 additional days to the cytokines and/or Nic. The cytokines induced a 6-fold increase in islet NO production (P < 0.001), and this effect was partially counteracted by Nic (50-60% decrease in NO production; P < 0.001). The cytokines severely decreased the islet insulin content and glucose-induced insulin release (16.7 mmol/l glucose; 90% decrease; P < 0.001). Both these effects of cytokines were partially counteracted by Nic, especially at the highest concentration (20 mmol/l; 2-4-fold increase compared to islets exposed to cytokines alone; P < 0.01). Nic by itself did not affect the insulin content or insulin release by control islets. In conclusion, the present data indicate that Nic counteracts the deleterious effects of cytokines on human pancreatic islets. This effect of Nic may be relevant for the beneficial effects of the drug in early IDDM.
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PMID:Nicotinamide decreases nitric oxide production and partially protects human pancreatic islets against the suppressive effects of combinations of cytokines. 760 71

Interleukin-1, tumor necrosis factor, and interleukin-6 inhibit insulin release and may be cytotoxic to isolated pancreatic islets. These cytokines have been postulated to play an important role in the beta cell destruction characteristic of type 1 diabetes. The present study was designed to investigate the effect of the above cytokines on insulin, glucagon, somatostatin, and thyrotropin-releasing hormone secretion by isolated human islets. In addition, we have investigated if cytokine-induced modifications in hormone secretion are accompanied by modifications in the ab initio synthesis of any specific lipidic fraction. All three cytokines studied, although not modifying insulin and somatostatin release to glucose 5 mmol/L, inhibited the response of both hormones to glucose 20 mmol/L. On the other hand, the cytokines almost completely blocked islet basal glucagon release, without affecting thyrotropin-releasing hormone secretion. The added cytokines also suppressed 20 mmol/L [U-14C]glucose incorporation into both phospholipids and diacylglycerol. Our results demonstrate a beta-, alpha-, and delta-cell, sensitivity to cytokine action. Additionally, they suggest that ab initio lipid synthesis might be implicated in the mechanism of insulin release in human islets.
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PMID:Cytokine-induced inhibition of lipid synthesis and hormone secretion by isolated human islets. 802 53

Cytokines have been regarded as effector molecules responsible for beta-cell death and major histocompatibility complex hyperexpression in endocrine pancreas of type I diabetes. However, the mechanism that results in beta-cell-selective destruction has not been elucidated. We demonstrated in this study, using cell lines of transformed mouse beta-cells and alpha-cells, that only pancreatic beta-cells but not alpha-cells produced tumor necrosis factor-alpha when exposed to interleukin-1 beta. Northern blot analysis confirmed the beta-cell-selective expression of tumor necrosis factor-alpha mRNA. Interleukin-1 beta also provoked tumor necrosis factor-alpha mRNA expression in vitro by normal mouse islet cells. Because tumor necrosis factor-alpha has been shown to potentiate beta-cell cytotoxicity of interleukin-1 and interferon-gamma, tumor necrosis factor-alpha produced in situ by beta-cells might be self-destructive. In fact, a low dose of interleukin-1 beta in combination with a low dose of interferon-gamma preferentially injured beta-cells. Hence endogenous tumor necrosis factor-alpha production by beta-cells may be involved in beta-cell-selective destruction in type 1 diabetes.
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PMID:Pancreatic beta-cell-selective production of tumor necrosis factor-alpha induced by interleukin-1. 809 83

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

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