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

Cytokines produced by immune system cells infiltrating pancreatic islets are candidate mediators of islet beta-cell destruction in autoimmune insulin-dependent diabetes mellitus. Cytokine-induced islet beta-cell destruction may be mediated by reactive oxygen intermediates. To determine the possible roles of oxygen free radicals and nitric oxide (NO) as mediators of islet beta-cell destruction, we studied the relationships among cytokine-induced beta-cell destruction, production of malondialdehyde (MDA; an end product of lipid peroxidation), and production of nitrite (the stable end product of NO). The cytokine combination of interleukin-1 beta (50 U/mL), tumor necrosis factor-alpha (10(3) U/mL), and interferon-gamma (10(3) U/mL) induced significant increases in MDA and nitrite and significant decreases in insulin and DNA in islets after 60-h incubation. A novel antioxidant (lazaroid U78518E) significantly inhibited both a strong oxidant. t-butylhydroperoxide, and the combination of cytokines from inducing MDA production, but not from increasing nitrite production in the islets. Also, the lazaroid antioxidant significantly reversed the cytokine-induced decreases in insulin and DNA contents of the islet cultures. In contrast, L-NG-monomethyl arginine, an inhibitor of NO synthase, prevented cytokine-induced nitrite production, but did not prevent cytokine-induced increases in MDA and decreases in insulin and DNA in the islet cultures. In addition, the addition of MDA to the islets produced a dose-dependent decrease in their insulin and DNA contents, and this was only partially prevented by the lazaroid antioxidant. These results suggest that cytokines may be toxic to human islet beta-cells by inducing oxygen free radicals, lipid peroxidation, and aldehyde production in the islets, and that MDA is one of the cytotoxic mediators of cytokine-induced beta-cell destruction.
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PMID:Human pancreatic islet beta-cell destruction by cytokines involves oxygen free radicals and aldehyde production. 878 69

The increased incidence of thyroiditis reported to occur in diabetes has also been observed in long-term galactose-fed dogs where it is reduced by the administration of aldose reductase inhibitors. Since this suggests that thyroidal changes are linked to the abnormal accumulation of sugar alcohols (polyols), present studies were conducted to confirm the presence of aldose and aldehyde reductases in dog thyroid through isolation and characterization. Aldose and aldehyde reductases were isolated from dog thyroid by a series of chromatographic steps which included gel filtration on Sephadex G-100, affinity chromatography on Matrex Gel Orange A and chromatofocusing on Mono P. A third, labile NADPH-reductase was partially purified by gel filtration on Sephadex G-100, affinity chromatography on Matrex Green A and hydroxylapatite chromatography on BIO-GEL HT. The kinetic properties of aldose and aldehyde reductases and their susceptibility to inhibition by aldose reductase inhibitors are similar to those of dog kidney aldose and aldehyde reductases. However, the levels of aldose reductase present in thyroid are extremely low compared to the levels of aldehyde reductase. A third NADPH-dependent reductase, tentatively identified as glyceraldehyde reductase, is also present in dog thyroid. This novel enzyme utilizes NADPH to reduce DL-glyceraldehyde and is clearly distinct from the other aldo-keto reductases in molecular weight, substrate specificity, inhibition by aldose reductase inhibitors and immunological properties. In summary aldose reductase, aldehyde reductase and a third novel glyceraldehyde reductase, all of which can utilize glyceraldehyde as substrate, have been identified and characterized in dog thyroid. Only aldose and aldehyde reductases, which can catalyze the production of polyols and were inhibited by aldose reductase inhibitors, appear to be linked to thyroiditis.
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PMID:NADPH-dependent reductases in dog thyroid: comparison of a third enzyme "glyceraldehyde reductase" to dog thyroid aldehyde reductase. 892 Jun 36

Cytokines produced by mononuclear leukocytes infiltrating pancreatic islets are candidate mediators of islet beta-cell destruction in autoimmune insulin-dependent diabetes mellitus. Cytokines may damage islet beta-cells by inducing oxygen free radical production in the beta-cells. Lipid peroxidation and aldehyde production are measures of oxygen free radical-mediated cell injury. In the current study, we used a HPLC technique to measure levels of different aldehydes produced in rat islets incubated with cytokines. The cytokine combination of interleukin-1beta (10 U/ml), tumor necrosis factor-alpha (10(3) U/ml), and interferon-gamma (10(3) U/ml), and the oxidant, t-butylhydroperoxide, induced significant increases in islet levels of the same aldehydes: butanal, pentanal, 4-hydroxynonenal (4-HNE), and hexanal. Cytokine-induced aldehyde production was associated with islet beta-cell destruction. Thus, cytokine-induced increases in malondialdehyde (MDA; at 4 h) and 4-HNE (at 8 h) preceded islet cell destruction (at 16 h), and the addition of 4-HNE, hexanal, MDA, and pentanal (1-200 microM) to th islets, but not other aldehydes at similar concentrations, produced dose-dependent destruction of islet beta-cells. Furthermore, an antioxidant (lazaroid U78518E) prevented cytokine-induced increases in 4-HNE, hexanal, and MDA and significantly inhibited cytokine-induced decreases in insulin and DNA in the islets. In contrast, N(G)-monomethyl-L-arginine, an inhibitor of nitric oxide synthase, prevented cytokine-induced nitrite production, but did not prevent cytokine-induced increases in 4-HNE, hexanal, and MDA or decreases in insulin and DNA in the islets. These results suggest that cytokines may damage islet beta-cells by inducing oxygen free radicals, lipid peroxidation, and, consequently, the formation of cytotoxic aldehydes in the islet cells.
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PMID:Destruction of rat pancreatic islet beta-cells by cytokines involves the production of cytotoxic aldehydes. 894 Mar 48

The chemical reactivity of collagen can be studied using neutron diffraction (a non-destructive technique), for certain reaction types. Collagen contains a number of lysine and hydroxylysine side chains that can react with aldehydes and ketones, or these side chains can themselves be converted to aldehydes by lysyl oxidase. The reactivity of these groups not only has an important role in the maintenance of mechanical strength in collagen fibrils, but can also manifest pathologically in the cases of aging, diabetes (reactivity with a variety of sugars) and alcoholism (reactivity with acetaldehyde). The reactivity of reducing groups with collagen can be studied by neutron diffraction, since the crosslink formed in the adduction process is initially of a Schiff base or keto-imine nature. The nature of this crosslink allows it to be deuterated, and the position of this relatively heavy scattering atom can be used in a process of phase determination by multiple isomorphous replacement. This process was used to study the following: the position of natural crosslinks in collagen; the position of adducts in tendon from diabetic rats in vivo and the in vitro position of acetaldehyde adducts in tendon.
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PMID:The chemical reactivity and structure of collagen studied by neutron diffraction. 903 21

The role of the microsomal ethanol-oxidizing system (MEOS) in hepatic ethanol metabolism is reviewed, with focus on its constitutive, ethanol-inducible cytochrome P-4502E1 (2E1). The MEOS was purified and reconstituted using 2E1, phospholipids, and cytochrome P-450 reductase and shown to oxidize ethanol to acetaldehyde, mainly as a monooxygenase and secondarily via hydroxyl radicals, with transcriptional and posttranscriptional regulation. Polymorphism of 2E1 was recognized, and enzymology (including cofactors, role of lipids, inducers, and inhibitors) as well as cellular and tissue distribution were chartered. Physiological functions involve lipid metabolism and ketone utilization in starvation, obesity, and diabetes. The most significant role of 2E1 is its adaptive response to high blood ethanol levels with a corresponding acceleration of ethanol metabolism. The associated free radical production, however, contributes to liver injury in the alcoholic. Most importantly, 2E1 has a unique capacity to activate many xenobiotics (85 of which are listed) to hepatotoxic or carcinogenic products. Induction of 2E1 also results in enhanced production of acetaldehyde, a highly reactive and toxic metabolite. The proliferation of the endoplasmic reticulum associated with 2E1 induction is also accompanied by enhanced activity of other cytochrome P-450s, resulting in accelerated metabolism of, and tolerance to, other drugs, as well as increased degradation of retinol and its hepatic depletion. Some substrates and metabolites, however, are innocuous and may eventually be used as markers of heavy drinking. Recently discovered effective 2E1 inhibitors also have great therapeutic potential.
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PMID:Cytochrome P-4502E1: its physiological and pathological role. 911 22

The mouse pancreatic beta TC3 and beta TC6-F7 cell lines were used to characterize the effects of interferon-gamma (IFN-y) on beta-cell phenotype and function. Initially, intracellular and secreted insulin were compared in glucose-stimulated cells over time. A significant reduction in insulin content and secretion was observed on a per-cell basis in glucose-stimulated beta TC3 and beta TC6-F7 cells after 12 h of exposure to IFN-gamma. The steadystate level of pre-proinsulin mRNA expression was not affected by IFN-gamma. Thus, we postulate that IFN-gamma's inhibitory actions occur after transcription of pre-proinsulin genes. Time-course analysis of IFN-gamma-regulated mRNA expression of the two intra-MHC-encoded subunits of the proteasome (low-molecular-mass polypeptide [Lmp]-2 and Lmp-7) revealed a correlation between their induction and the inhibitory effects of IFN-gamma on glucose-stimulated insulin production. Increased expression of Lmp-2 and Lmp-7 mRNA was accompanied by a corresponding induction of LMP2 and LMP7 protein expression. Subsequently, major histocompatibility complex (MHC) class I cell-surface expression was significantly increased in IFN-gamma-treated beta TC3 and beta TC6-F7 cells. Exposure of IFN-gamma-treated beta-cells to a peptide aldehyde inhibitor of the proteasome (MG132) significantly attenuated MHC class I cell-surface expression but did not prevent the negative effects of IFN-gamma on glucose responsiveness. Enhanced expression of the MHC class I antigen processing and presentation pathway and diminished insulin production appear to be distinct pathological alterations in beta-cells exposed to the insulitic cytokine IFN-gamma.
Diabetes 1997 May
PMID:Interferon-gamma independently activates the MHC class I antigen processing pathway and diminishes glucose responsiveness in pancreatic beta-cell lines. 913 43

Sudden death caused by the acute onset of diabetic coma is reported. A 15-year-old female had been suffering from insulin-dependent diabetes mellitus for the prior 8 years and had a fever and vomiting for the past few days. On the 4th day, after the onset of fever and vomiting, she died suddenly, and was autopsied to clarify the cause of death. Macroscopic examination revealed that the pancreas was atrophic (40 g) whereas the liver was markedly enlarged (2,740 g). Histological findings were: 1) The islets of Langerhans were decreased in size and number. They were not positive for aldehyde-fuchsin staining, 2) There were severe fatty changes in the liver cells. The retained blood in the left ventricle was analyzed: glucose, 1,016 mg/dl; acetone, 345 mg/l; acetoacetate, 5.91 mmol/l: D-3-hydroxybutyrate, 4.17 mmol/l; hemoglobin A1c, 10.2%; fructosamine, 416 mumol/l; total serum cholesterol, 220 mg/dl; triglycerides, 205 mg/dl; free fatty acid, 8.0 mEq/l; urea nitrogen, 40 mg/dl. Although the biochemical estimation of the glucose and ketone levels in post-mortem body fluids was recognized as being unreliable, many of these values were far elevated in comparison with those of normal individuals. Thus, we concluded that the cause of death was diabetic ketoacidosis. We also discuss the diagnostic problems of postmortem blood chemistry.
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PMID:Sudden death due to diabetic coma in insulin-department diabetes mellitus: an autopsy report. 918 21

The discovery of the clinically important glycohemoglobin adducts and their relation to diabetes mellitus have greatly stimulated the study of other minor post-translational modifications of hemoglobin. Chromatographic and electrophoretic procedures have played an important role in these studies. Today several hemoglobin adducts are known and the formation of adducts with glucose, phosphorylated carbohydrates, urea/cyanate, aspirin, vitamins, acetaldehyde, penicillin and acetyl CoA have been described. Furthermore, new adducts, such as those observed using hemoglobin as a biochemical marker monitoring environmental, occupational and lifestyle exposures to reactive toxic chemicals are constantly being reported. This review deals with chromatographic and electrophoretic separation methods available for the study of non-enzymatic post-translational modifications of hemoglobin. Suitability, perspectives and biomedical applications are discussed.
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PMID:Chromatographic and electrophoretic methods for modified hemoglobins. 939 79

The role of oxidative stress in aging and diabetes mellitus is currently under discussion. We previously showed age-dependent accumulations of fluorescent protein adducts with lipoperoxidative aldehydes, (malondialdehyde (MDA), and hydroxynonenal (HNE)) in rat skin collagen with diabetic BB rats exhibiting faster accumulation. Modified proteins have been shown to be immunogenic: antibody titres against rat serum albumin modified by MDA and HNE (MDA-RSA and HNE-RSA) or oxidized by reactive oxygen species were measured by ELISA as markers of oxidative damage in BB diabetic and non-diabetic rats. Each tested antibody titre was significantly higher in the diabetic than in the non-diabetic rats. A significant correlation existed between anti-MDA-RSA and anti-HNE-RSA antibody titers. Only the anti-HNE-RSA antibody titre increased significantly with age (p=0.052) in diabetic animals, while no titres increased significantly in non-diabetic animals. A major factor which correlated with the development of these antibodies was diabetes duration: this was significant (p=0.032) for anti-HNE-RSA antibody titre and slightly significant (p=0.05) for anti-MDA-RSA antibody titre. Thus, chronic hyperglycaemia is probably fundamental in the increase of oxidative stress. There is correlation between anti-aldehyde-RSA antibody titres and the corresponding aldehyde-related collagen-linked fluorescence: modified collagen may play a part in the observed immune response. Our data indicate a stronger immune response of diabetic rats against proteins modified by lipoperoxidative aldehydes and oxygen free radicals, and they support the hypothesis of increased oxidative damage in diabetes.
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PMID:Immunological evidence for increased oxidative stress in diabetic rats. 954 Nov 65

Acrolein (CH2==CH---CHO) is known as a ubiquitous pollutant in the environment. Here we show that this notorious aldehyde is not just a pollutant, but also a lipid peroxidation product that could be ubiquitously generated in biological systems. Upon incubation with BSA, acrolein was rapidly incorporated into the protein and generated the protein-linked carbonyl derivative, a putative marker of oxidatively modified proteins under oxidative stress. To verify the presence of protein-bound acrolein in vivo, the mAb (mAb5F6) against the acrolein-modified keyhole limpet hemocyanin was raised. It was found that the acrolein-lysine adduct, Nepsilon-(3-formyl-3, 4-dehydropiperidino)lysine, constitutes an epitope of the antibody. Immunohistochemical analysis of atherosclerotic lesions from a human aorta demonstrated that antigenic materials recognized by mAb5F6 indeed constituted the lesions, in which intense positivity was associated primarily with macrophage-derived foam cells and the thickening neointima of arterial walls. The observations that (i) oxidative modification of low-density lipoprotein with Cu2+ generated the acrolein-low-density lipoprotein adducts and (ii) the iron-catalyzed oxidation of arachidonate in the presence of protein resulted in the formation of antigenic materials suggested that polyunsaturated fatty acids are sources of acrolein that cause the production of protein-bound acrolein. These data suggest that the protein-bound acrolein represents potential markers of oxidative stress and long-term damage to protein in aging, atherosclerosis, and diabetes.
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PMID:Protein-bound acrolein: potential markers for oxidative stress. 956 Jan 97


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