UMLS:C0011849 - FACTA Search

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Query: UMLS:C0011849 (diabetes)
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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

Flow cytometry was recently introduced for the detection of antibodies in human serum to a cultured insulin-secreting rat insulinoma cell line (RINm5F) to investigate humoral immune reactivity in newly diagnosed type I (insulin-dependent) diabetic patients. Fifty-three patients were observed for 6-20 mo after clinical onset of diabetes with a reported duration of symptoms of less than 6 wk. Human anti-RINm5F antibodies were detected in 28%, human anti-islet cell antibodies in 62%, and anti-insulin autoantibodies in 36% of patients before initiation of insulin therapy. Occurrence of human anti-RINm5F antibodies at this stage was correlated with human anti-insulin autoantibodies rather than with the formation of anti-islet cell antibodies. Incidence of anti-RINm5F antibodies in individuals with duration of diabetes greater than 6 wk was 38%, whereas human anti-islet cell antibodies and anti-insulin antibodies became detectable in 72 and 61% of the patients, respectively. These findings are in line with previous reports of immunoprecipitation by human diabetic serums of a 64,000-Mr antigenic structure in freshly prepared rat islet cells. The results suggest a reactivity of distinct classes of antibodies in serums of patients with type I diabetes to disparate antigens on human islet cells and cloned rat insulinoma cells and, moreover, reactivity to insulin as the secreted product. Further characterization of the reacting RINm5F antigens and prospective studies in subjects at risk for diabetes are required to validate the application of RIN cells to the investigation of immune mechanisms involved in the pathogenesis of human type I diabetes.
Diabetes 1989 Dec
PMID:Flow-cytometric detection of human anti-rat insulinoma antibodies in relation to anti-human islet cell and anti-insulin antibodies. Recognition of distinct antigens by antibodies in early type I diabetes. 255 42

A large body of data generated during the past two decades has led to the ability to predict the development of Type I diabetes in the majority of relatives of diabetics. In particular we have recently proposed a dual parameter linear model to aid in predicting the onset of diabetes [years to diabetes = 1.5 + .03(IVGTT insulin secretion) - 0.008 (concn of insulin autoantibodies)]. The concentration of insulin autoantibodies in prediabetics appears to remarkably correlate with the age at which diabetes develops and the rate at which islet cell antibody-positive individuals progress to diabetes. Children developing diabetes before Age 5 often express more than 1000 nU/ml of such antibodies with the upper limit of normal of 39 nU/ml. Each prediabetic appears to be set at a characteristic level of insulin autoantibodies which does not consistently vary prior to the development of diabetes. During the prodromal phase preceding diabetes first phase insulin secretion is progressively lost, and the combination of insulin release which appears to reflect beta cell damage and the level of insulin antibodies accounts for more than 75% of the variation in time to diabetes over a 6-year interval. A subset of NOD mice also expresses insulin autoantibodies, and in addition essentially all NOD mice, but not F1 crosses of NOD by BALB/c, have antibodies to a target antigen of a RIN islet line protein (termed "polar antibodies"). In addition patients but not NOD mice have cytoplasmic islet cell antibodies which appear to react with a glycolipid islet target antigen. In the NOD mice the inheritance of disease is multigenic with a gene on chromosome 9, linked to the T cell marker theta, determining the bulk of islet cell destruction. In crosses of NOD mice with a series of normal strains, inheritance overt diabetes is correlated with inheritance of the NOD's unique I-A beta gene, though the bulk of islet destruction and insulitis can occur independent of MHC inheritance. Until the additional genes outside of the MHC, associated with the development of Type I diabetes, are identified for man, the NOD mouse, and the BB rat, one can only speculate concerning pathogenic mechanisms. To date islet cell destruction appears to be independent of polymorphic genes acting at the level of the islet target, and crucially dependent upon bone marrow precursor cells.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Type I diabetes mellitus: a predictable autoimmune disease with interindividual variation in the rate of beta cell destruction. 264 71

In a rosette assay, 63 patients with recent-onset type I (insulin-dependent) diabetes mellitus had a higher (P less than .001) number of lymphocytes adhering to rat insulinoma RINm5F cells (diabetic rosettes) than 153 healthy control (background rosettes) or 20 nondiabetic subjects with other organ-specific autoimmune diseases. Furthermore, lymphocytes from diabetic patients displayed a highly correlated (r = .97, P less than .001) binding on two different xenogeneic beta-cell lines (RIN and hamster insulinoma HIT cells). This phenomenon was not found on a panel of seven non-beta-cell lines (e.g., exocrine pancreatic cells, endocrine cells). By increasing lymphocyte-to-RIN ratios (0.25:1 to 30:1), the supernumerary RIN-adherent lymphocytes from diabetic patients, expressed as the percentage of lymphocytes involved conjugates, were only detectable at lower ratios (0.25:1 to 4:1), and their binding efficiency was two times higher than that of control lymphocytes. This efficiency fell at higher ratios (greater than 4:1) to the level of background rosettes that remained constant through the ratio scale. This specific RIN-rosette formation was abrogated when lymphocytes from diabetic patients were preabsorbed on beta-cells (either HIT or RIN) but not on non-beta-cells, whereas preabsorption of control lymphocytes did not modify the number of background rosettes. In addition, diabetic rosettes, but not background rosettes, were inhibited by competition with RIN membrane extracts but not by non-beta-cell extracts. Moreover, diabetic rosettes were inhibited during blocking experiments with anti-CD3 monoclonal antibody (MoAb) but not with unrelated MoAbs.(ABSTRACT TRUNCATED AT 250 WORDS)
Diabetes 1989 May
PMID:In vitro relationship of CD4 cells from type I diabetic patients and xenogeneic beta-cell membranes. 265 34

An enzyme-linked immunosorbent assay (ELISA) was established for the detection of islet cell antibodies in human sera. The antigen was prepared from rat insulinoma (RIN A2) cells. Cells were dissociated in lysis buffer and the lysate was centrifuged at 100,000 x g. The supernatant was used to coat microtiter ELISA plates (10 micrograms protein/ml in PBS pH 7.2). Non-specific binding sites on the plates were blocked with 2% PBS-BSA. Human test sera were preabsorbed on separate plates using 2% PBS-BSA and incubated on precoated plates at an optimal dilution of 1/10 in 60 mM PBS for 60 min at 37 degrees C. Phosphatase-labeled anti-human IgG serum and phosphatase substrate were applied and the reaction was stopped by adding 3 M NaOH. Out of 90 sera from type I diabetic patients, 47 (52.2%) reacted in the new ELISA whereas none of 15 type II diabetics, 50 sera containing non-islet specific antibodies or 100 normal controls were positive. In the same group of patients, ICA were positive in 63.3%. When both, the ELISA and conventional ICA testing were applied, the number of positives was increased to 83%. The ICA-ELISA with the above described antigen preparation provides a well standardized and reproducible test method which is highly specific for type I diabetes. It may therefore be useful for large screening procedures.
Diabetes Res 1989 Feb
PMID:Determination of islet cell antibodies using an ELISA system with a preparation of rat insulinoma (RIN A2) cells. 266 22

A new method is described for testing monoclonal islet cell surface antibodies for their ability to mediate cellular immune effector mechanisms (ADCC). For the first time an IgM mediated cellular cytotoxicity is demonstrated. By using the RIN cell line as target the method was reproducible and easy to perform. The significance of such definition of monoclonal ICSA's to experimental diabetes research is discussed.
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PMID:Monoclonal islet cell surface antibody dependent cellular cytotoxicity mediated by rat splenocytes with the RIN cell line as target. 267 12

RINmRH cells are a cloned cell line derived from a transplantable rat insulinoma. These cells display only some of the differentiated structure/function features of native pancreatic B-cells. In particular, they do not efficiently or reproducibly express islet B-cell surface antigens, which would otherwise render them useful for screening for the presence of anti-islet cell surface antibodies in the serum of suspected diabetic patients or their relatives. This study examines whether sodium butyrate can enhance expression of B-cell differentiation antigens on RIN cells. RIN cells were exposed to 1,2 or 4 mM butyrate for nine days, and cell growth followed. At 1 mM, butyrate inhibited cell growth by 90%. At the higher concentrations, there was a net loss in the number of cells per culture dish. Exposing the cells to 1 mM or 2 mM butyrate for two days, resulted in a 50% increase in cellular insulin content at the expense of a partial (1 mM) or complete (2 mM) loss of stimulated insulin release in response to glyceraldehyde or serine. A concentration of 1 mM butyrate was therefore used for subsequent studies. The binding to RIN cells of a panel of monoclonal antibodies (mAb's) known to bind native islet cells (R2D6, A2B5, A1D2, 3G5) as well as of serum from a diabetic patient known to carry anti-islet cell antibodies, was screened by cytofluorography or by a radio-binding assay. The relative binding affinity of the mAb's was 3G5 greater than A1D2 greater than A2B5 greater than R2D6. Only 2-3% of the cells were bound by the diabetic patient serum.(ABSTRACT TRUNCATED AT 250 WORDS)
Diabetes Res 1989 Oct
PMID:Modulation by sodium butyrate of the differentiated status of a clonal pancreatic B-cell line (RIN). 269 45

Two MHC Class II-negative rat epithelial cell lines (RINm5F beta-cells and TS colic cells) were co-cultured with xenogenic lymphocytes from Type I diabetic patients or from low-dose streptozotocin (SZ) diabetic mice. MHC Class II antigens (Ag) were easily induced on both cell lines in such co-culture conditions, representing an experimental approach to insulitis. Our data indicate that: (1) lymphocytes from diabetic patients or from SZ mice were more efficient than lymphocytes from healthy controls in inducing Class II Ag on RIN cells. Lymphocytes from patients with autoimmune thyroid diseases were also more efficient than control lymphocytes, indicating that the ability to induce Class II may be related to the activation of lymphocytes rather than being diabetes-specific. (2) Rat colon carcinoma cells (TS) were also induced to express high levels of Class II Ag upon co-culture with SZ or control mouse lymphocytes. (3) Class II+ RIN cells were observed after 24 h of co-culture; their number increased after 48 and 72 h. The number of class II+ RIN increased proportionally to the number of lymphocytes in the culture. (4) Induction of Class II Ag was obtained by cell-free supernatants of mouse lymphocytes/RIN co-cultures and was inhibited by cyclosporine A, suggesting that Class II induction in this model is mediated by lymphokines. (5) Depletion experiments indicate that both monocytes and lymphocytes play a role in this Class II induction.
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PMID:Class II MHC antigen induction on rat insulinoma (RINm5F) and colon carcinoma (TS) cells by co-culture with diabetic and normal xenogenic lymphocytes. 276 97

The function of clonal insulin-secreting RINm5F cells was compared with parent tumoural B-cells from radiation-induced NEDH rat insulinoma and a RINm5Fr cell line established following transplantation of RINm5F cells in NEDH rat. After 3 days culture, tumoural B-cells contained 156 micrograms insulin/10(6) cells and released 57-82 ng insulin/10(6) cells/h during acute incubations at 2.6 mM Ca2+. RINm5F cells contained 0.56 ng insulin/10(6) cells and released 62-181 pg insulin/10(6) cells/h. Unlike tumoural B-cells, secretion was stimulated 1.7-2.4-fold by 5 mM theophylline, 1 microM glucagon, 25 mM K+, or 7.6 mM Ca2+. Subscapular transplantation of cultured tumoural B-cells or RINm5F cells (2.8 X 10(7) cells/rat) resulted in an encapsulated tumour associated with progressive hyperinsulinaemia, hypoglycaemia and death by 28-46 days and 39-44 days respectively. A RINm5Fr cell line was established in culture from a 19 g tumour 20 days after transplantation. RINm5Fr cells contained 2.69 ng insulin/10(6) cells and released 385-1,017 pg insulin/10(6) cells/h (p less than 0.001 compared with RINm5F cells). Secretion was not augmented by glucose, but at 16.7 mM glucose it was stimulated 1.5-fold by 5 mM theophylline, 1.6-fold by 1 microM glucagon and inhibited 0.6-fold by somatostatin. At 5.6 mM glucose, secretion was stimulated 1.6-fold by 25 mM K+, 2.5-fold by 7.8 mM Ca2+, 2.1-fold by 20 microM A23187, 1.5-fold by 20 mM leucine and 1.4-fold by 100 microM tolbutamide. These data indicate fundamental differences between rat insulinoma cells and the derived RIN cell lines. Transplantation is a useful means to enhance the function of RINm5F cells.
Diabetes Res 1987 Oct
PMID:Insulin secretion in vivo and in vitro from transplantable NEDH rat insulinoma and derived clonal RINm5F cell line. 282 34

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