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:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of pituitary and pancreatic hormones on the change in hepatic cytochrome P450s were studied in alloxan- or streptozotocin-induced male rats. In two major sex-specific forms, P450-male and P450(6 beta-1), the former was decreased in chronic (5 week) diabetes to only less than one-third of controls and the latter was also reduced in early (1 week) diabetes. In contrast, a main phenobarbital-inducible form, P450b, was enhanced 25- to 30-fold in these diabetic rats. 3-Methylcholanthrene-inducible P448H was also elevated 3-fold in alloxan-induced diabetes. These changes in hepatic contents of P450-male, P450-6 beta-1, and P450b, which are under the regulation of pituitary growth hormone, associated well with the reported results of time-dependent changes in growth hormone levels in diabetes (G.S. Tannenbaum (1981) Endocrinology 108, 76-82), suggesting that the change in growth hormone level is a factor responsible for alterations in hepatic cytochrome P450s. Normalizing effects of insulin on these forms were also studied. Treatment of diabetic rats with insulin reversed the decreased amounts of both P450-male protein and mRNA. Insulin also normalized hepatic contents of P450b, P4506 beta-1, and P448H. However, the treatment of hypophysectomized rats with insulin had no effect, and treatment of diabetic rats with growth hormone or a suppressing agent of somatostatin, cysteamine, showed trivial effects on P450-male and P450b. These results suggest that insulin does not act directly as a substitute of growth hormone, but exerts its effect indirectly through the normalization of a growth hormone-mediated process(es) in diabetic rats.
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PMID:Cytochrome P450 in livers of diabetic rats: regulation by growth hormone and insulin. 252 54

The effects of streptozotocin-induced diabetes and fasting on hepatic cytochrome P-450 enzymes in sexually mature male rats were studied by immunochemical techniques and enzyme assays. The level of cytochrome P-450ac (an acetone/ethanol inducible form), 65 pmol/mg microsomal protein in control rats, increased 4- to 5-fold in diabetic rats and 3- and 5-fold in fasting rats. In contrast, P-450 UT-A (a male specific form) decreased drastically from 295 pmol/mg in the control group to about 10% of this value in diabetic rats and to 50% in fasting rats. P-450 PCN-E (a 16 alpha-cyanopregnenolone/dexamethasone inducible form), on the other hand, decreased from 151 pmol/mg to 38% in diabetic rats and increased 2-fold in fasting rats. These changes were also reflected in catalytic activities using N-nitrosodimethylamine, benzphetamine, and erythromycin as substrates. Slight changes in cytochromes P-450 UT-F, P-450 UT-I and P-450 PB-C were also observed under these conditions, but the biological significance is not known. These results suggest that different mechanisms exist for the regulation of the expression of cytochrome P-450 enzymes in diabetic and fasting rats.
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PMID:Similarities and differences in the regulation of hepatic cytochrome P-450 enzymes by diabetes and fasting in male rats. 281 18

Previous studies demonstrated that a microsomal high-affinity N-nitrosodimethylamine demethylase activity and cytochrome P-450ac (an acetone/ethanol-inducible form) were induced by streptozotocin-induced diabetes in rats. In the present work, the induction was studied in detail in two chemically induced (by streptozotocin and alloxan) diabetic rat models and one spontaneously (BB/Wor) diabetic rat model. All the diabetic conditions caused increases in three parameters: (a) microsomal N-nitrosodimethylamine demethylase activity which is known to be a good indicator of the level of P-450ac; (b) the levels of P-450ac as determined by immunoblot analysis; and (c) the levels of mRNA of P-450ac as determined by hybridization assays with a cDNA probe for this enzyme. These increases were abolished by treatment of the diabetic rats with insulin. The results suggest that the pathophysiological condition of diabetes is responsible for the induction of P-450ac and elevation of mRNA is involved in all of the three diabetic models investigated.
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PMID:Mechanism of induction of cytochrome P-450ac (P-450j) in chemically induced and spontaneously diabetic rats. 328 94

A diabetes-inducible form of cytochrome P-450, termed P-450DM, was purified to electrophoretical homogeneity (MW 51,000) by high-performance liquid chromatography from liver microsomes of diabetic rats induced with streptozotocin. The CO-reduced absorption maximum of P-450DM was at 452 nm and the oxidized heme iron appeared to be predominately in the high-spin state as deduced from the Soret maximum at 395 nm. P-450DM was active in aniline hydroxylation and N-nitrosodimethylamine demethylation. The dealkylation activity toward 7-ethoxycoumarin by P-450DM was much enhanced by the addition of cytochrome b5.
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PMID:Purification and characterization of diabetes-inducible cytochrome P-450. 338 19

The enzyme nitric oxide synthase catalyzes the conversion of L-arginine to citrulline and the radical nitric oxide, a short-lived mediator which can be produced in a variety of cell types. Overproduction of nitric oxide is probably implicated in the pathogenesis of several immunologically mediated diseases, including insulin-dependent diabetes mellitus (Type 1). Insulin-producing cells exposed to cytokines, especially interleukin-1, express an inducible form of nitric oxide synthase which is similar to that observed in activated macrophages. Induction of this enzyme mRNA in these cells depends on protein synthesis, and it is probably modulated by protein products of early response genes, such as C-fos. Cytokines seem to activate beta-cell inducible-nitric oxide synthase mostly by stimulating mRNA transcription, but drugs such as nicotinamide and dexamethasone inhibit interleukin 1 induced nitric oxide production by posttranscriptional mechanisms. Considering the potential role for nitric oxide in beta-cell damage during the early stages of Type 1 diabetes, it is of high relevance to further characterize the regulation of this enzyme in insulin-producing cells.
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PMID:The inducible form of nitric oxide synthase (iNOS) in insulin-producing cells. 752 93

Substantial in vitro evidence suggests that nitric oxide may be a major mediator of interleukin 1 (IL-1) induced pancreatic beta-cell inhibition and destruction in the initial events leading to insulin-dependent diabetes mellitus. Using NG-nitro-L-arginine methyl ester, an inhibitor of both the constitutive and the cytokine inducible forms of nitric oxide synthase, and aminoguanidine, a preferential inhibitor of the inducible form of nitric oxide synthase, we investigated the impact of inhibiting nitric oxide production on food-intake, body weight and temperature, blood glucose, plasma insulin, glucagon, corticosterone and leukocyte- and differential-counts in normal rats injected once daily for 5 days with interleukin 1 beta (IL-1 beta) (0.8 microgram/rat = 4.0 micrograms/kg). Inhibition of both the constitutive and the inducible forms of nitric oxide synthase prevented IL-1 beta-induced fever, hyperglycaemia, hypoinsulinemia, and hyperglucagonemia, and partially prevented lymphopenia and neutrophilia, but had no effect on IL-1 beta-induced anorexia and changes in plasma corticosterone. Preferential inhibition of the inducible form of nitric oxide synthase using two daily injections of 5 mg/rat of aminoguanidine prevented IL-1 beta-induced hyperglycaemia and hypoinsulinaemia, and slightly reduced the pyrogenicity of IL-1 on 3 out of 5 days. Higher doses of aminoguanidine (100 mg/rat) prevented lymphopenia and neutrophilia. We conclude that nitric oxide produced by the inducible form of nitric oxide synthase, mediates the IL-1 beta-induced inhibition of insulin release and that the effect of IL-1 beta on temperature, pancreatic alpha-cells, and leukocyte differential counts seems to be mediated by nitric oxide produced by the constitutive form of nitric oxide synthase.
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PMID:Interleukin 1 beta induces diabetes and fever in normal rats by nitric oxide via induction of different nitric oxide synthases. 753 59

Interleukin-1 beta (IL-1 beta) has been suggested to mediate beta-cell destruction in insulin-dependent diabetes mellitus (IDDM) by inducing nitric oxide production. In this study, we assessed the levels of IL-1 beta and the inducible form of nitric oxide synthase (iNOS), using a semi-quantitative polymerase chain reaction assay, and performed determinations of nitrite accumulation and IL-1 beta bioactivity, on pancreatic islets isolated from 5- and 16-week-old female and male nonobese diabetic (NOD) mice and from nondiabetes prone NMRI mice. NOD mouse islets contained notable amounts of IL-1 beta mRNA. At 5 weeks of age, but not at 16 weeks, the values were higher in islets isolated from NOD females compared to males. The IL-1 beta bioactivity showed differences roughly reflecting the mRNA levels in the NOD mouse islets. In the NMRI mouse islets the IL-1 beta bioactivity was very low. The expression of iNOS mRNA increased in both male and female islets between 5 and 16 weeks of age. Immunocytochemistry of pancreatic sections indicated the presence of macrophages especially in the peri-insular area of the NOD mice which suggests that IL-1 beta was produced by macrophages. The levels of IL-1 beta activity and mRNA in freshly isolated islets from NOD 5-weeks-old females did not correlate to the iNOS mRNA content or to the nitrite production. However, after incubation with IL-1 beta in vitro, both NOD and NMRI islets responded with a marked increase in nitric oxide production.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Comparison of mRNA contents of interleukin-1 beta and nitric oxide synthase in pancreatic islets isolated from female and male nonobese diabetic mice. 753 71

Nitric oxide (NO) may be a mediator of beta-cell damage in insulin-dependent diabetes mellitus. beta-Cells express the inducible form of NO synthase (iNOS) and produce large amounts of NO upon exposure to cytokines. iNOS requires the amino acid arginine for NO formation. It has been shown in other cell types that interferon-gamma (IFN gamma) and bacterial lipopolysaccharide induce the enzyme argininosuccinate synthetase (AS), enhancing the capacity of these cells to regenerate arginine from citrulline and maintain NO production in the presence of low arginine concentrations. To characterize the messenger RNA (mRNA) expression of AS in insulin-producing cells, RINm5F cells (RIN cells) were exposed to interleukin-1 beta (IL-1 beta) or to tumor necrosis factor-alpha plus IFN gamma. After 4-6 h, there was a significant and parallel induction of AS and iNOS mRNA. IL-1 beta-induced AS and iNOS mRNA expression was prevented by an inhibitor of the activation factor NF-kappa B pyrrolidine diaminoguanidine, an inhibitor of gene transcription (actinomycin D), and a blocker of protein synthesis (cycloheximide), suggesting coregulation of AS and iNOS by cytokines. RIN cells exposed to IL-1 beta in the presence of citrulline but the absence of arginine had increased AS enzyme activity and produced NO, demonstrating that cytokine-induced AS mRNA expression is accompanied by increased AS activity. Both adult rat islets exposed to IL-1 beta and human pancreatic islets cultured in the presence of IL-1 beta, tumor necrosis factor-alpha, and IFN gamma were able to use citrulline to regenerate arginine and produce NO. Taken as a whole, the present data suggest that regulation of AS activity may play a role in modulation of NO production in both rodent and human insulin-producing cells.
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PMID:Expression of the citrulline-nitric oxide cycle in rodent and human pancreatic beta-cells: induction of argininosuccinate synthetase by cytokines. 762 52

Nitric oxide (NO) generation may be a final common pathway for beta-cell damage in early insulin-dependent diabetes mellitus. Insulin-producing cells express an inducible form of NO synthase (iNOS), which is similar to that observed in activated macrophages. Induction of iNOS mRNA in these cells depends on protein synthesis. To further characterize the regulation of iNOS induction in insulin-producing cells, RINm5F cells (RIN cells) were exposed for 6 h to human recombinant interleukin-1 beta (rIL-1 beta; 1 ng/ml) alone or in combination with either nicotinamide (10, 20, or 50 mM) or dexamethasone (1 or 5 microM). These agents have been previously shown to prevent activation of iNOS in macrophages, fibroblasts, and hepatocytes. rIL-1 beta induced the expression of iNOS mRNA in RIN cells and a 12- to 13-fold increase in medium nitrite accumulation, the latter indicating NO production. Nicotinamide decreased nitrite production in a dose-dependent way. Thus, 10 mM nicotinamide decreased rIL-1 beta-induced nitrite formation by 30%, 20 mM by 60%, and 50 mM by 90%. The highest concentration of nicotinamide also prevented rIL-1 beta-induced iNOS mRNA, an effect associated with inhibition of total protein biosynthesis. However, 10 or 20 mM nicotinamide did not modify rIL-1 beta-induced iNOS mRNA expression or inhibit protein biosynthesis. Dexamethasone also decreased rIL-1 beta-induced nitrite production without affecting iNOS mRNA expression. As a whole, these data suggest that both nicotinamide and dexamethasone may prevent NO accumulation in insulin-producing cells by posttranscriptional mechanisms. It is also possible that these drugs induce direct inhibition of iNOS enzymatic activity and/or scavenge NO. Higher concentrations of nicotinamide might also inhibit iNOS mRNA expression, possibly by blocking protein biosynthesis.
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PMID:Nicotinamide and dexamethasone inhibit interleukin-1-induced nitric oxide production by RINm5F cells without decreasing messenger ribonucleic acid expression for nitric oxide synthase. 769 79

The role of nitric oxide (NO.) in the development of immunologically induced diabetes was examined. Transfer of spleen cells obtained from diabetic female nonobese diabetic (NOD) mice to nondiabetic irradiated males induced diabetes 11-13 days after transfer. Islets isolated from recipient male mice produced NO. in a time-dependent fashion. The production of nitrite was initially detected at day 6 after transfer, with increasing levels by days 9 and 13. Under similar conditions glucose-induced insulin secretion by isolated NOD mouse islets was irreversibly reduced by approximately 40% at days 6, 9, and 13 after transfer of spleen cells. The number of islets harvested per pancreas by the 9th and 13th day after transfer was decreased by 20-25% as compared to controls. Treatment of male NOD mice with aminoguanidine, an inhibitor of the inducible form of NO. synthase, reduced the production of NO. in islets and delayed the development of diabetes by 3-8 days. The temporary inhibition by aminoguanidine was dependent on both inhibitor concentration and number of spleen cells transferred. These results indicate that NO. is produced in NOD islets as a result of an immunological diabetogenic process and suggests a role of this compound in the immunological diabetic process.
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PMID:Nitric oxide production in islets from nonobese diabetic mice: aminoguanidine-sensitive and -resistant stages in the immunological diabetic process. 769 42


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