UMLS:C0011849 - FACTA Search

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

RT6 is a glycosylphosphatidylinositol-linked protein found on the surface of mature rat T lymphocytes. Cells that express RT6 have an immunoregulatory function and modulate the expression of autoimmune diabetes mellitus in the BioBreeding rat. A homologue of the rat RT6 gene, designated Rt6, has been identified in the mouse, but expression of mouse Rt6 protein has not been documented. Rat RT6 is known to be a nicotinamide adenine dinucleotide (NAD+) glycohydrolase. We now report that rat RT6.2 and recombinant mouse Rt6 locus 1 proteins possess auto-ADP ribosylation activity. In addition, mouse Rt6 but not rat RT6, catalyzes the ADP ribosylation of exogenous acceptors such as histones. The ADP-ribosyl-protein bonds in auto-ADP-ribosylated rat RT6.2, auto-ADP-ribosylated mouse Rt6, and ADP-ribosylhistone synthesized by Rt6 were stable to HgCl2 and HCl, but labile to NH2OH, consistent with ADP ribosylarginine linkages. To determine if these enzymatic activities could affect the function of rat T cells, the effect of substrate availability on lymphocyte proliferation was examined. An inverse correlation was observed between NAD+ concentration in the medium and the ability of rat T cells to respond to anti-CD3, ConA, and PMA plus ionomycin. The data suggest that lymphocyte surface ADP ribosyltransferases could be involved in signaling and immunoregulatory processes.
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PMID:Rat RT6.2 and mouse Rt6 locus 1 are NAD+: arginine ADP ribosyltransferases with auto-ADP ribosylation activity. 866 96

IL-4 has been shown to protect against diabetes development in rodent models of insulin-dependent (type I) diabetes mellitus (IDDM). To study IL-4 production in human IDDM, PBMC from IDDM patients and controls were stimulated in vitro with PHA, anti-CD3 mAb, or PMA and ionophore. IL-4 production by PBMC or T cells was strongly impaired in IDDM patients at diabetes onset (p < 0.0001). The mean IL-4 response of patients in the honeymoon stage was higher than the mean of the new onset patients, but significantly lower than the control group (p = 0.01). Patients with IDDM of longer duration (>2 yr) showed a wide range of IL-4 responses and their mean IL-4 response was lower than the controls; however, the difference was not statistically significant. IL-4 mRNA levels were measured using competitive reverse transcription PCR. The results showed greatly reduced mRNA levels in new onset IDDM. In contrast, IL-1 production (measured by ELISA) and IFN-gamma mRNA (measured by reverse transcription PCR) were not significantly different in IDDM. The results suggest an imbalance of inflammatory vs anti-inflammatory cytokine production at the onset of IDDM. Deficient IL-4 production as seen at the onset of IDDM may play a role in the development of diabetes by allowing the inflammatory/autoimmune process in pancreatic islets to progress.
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PMID:Decreased IL-4 production in new onset type I insulin-dependent diabetes mellitus. 890 50

Oral therapy with linomide protects prediabetic nonobese diabetic (NOD) mice from insulin-dependent diabetes mellitus. The mechanisms by which linomide exerts its protective effect are not fully understood. A decreased TCR-mediated activity of the GTP-GDP binding p21(ras) proto-oncogene is associated with prediabetes in NOD mice. However, the role of this signal transduction defect in the pathogenesis of autoimmune diabetes is not known. The TCR-mediated and protein kinase C-induced activations of p21(ras) were determined in mononuclear cells from lymph nodes of linomide-treated and untreated prediabetic NOD mice. TCR cross-linking by Con A induced an increase of 13 +/- 6.8% and a decrease of 0.8 +/- 1.8% in p21(ras) activity in the linomide-treated group and the untreated controls, respectively. Cell stimulation with PMA resulted in a 15 +/- 2% increase in p21(ras) activity in the linomide-treated mice and a 10 +/- 11.4% decrease in the untreated mice. Protein levels of p21(ras) and its regulatory elements, the GTPase-activating protein and the guanine nucleotide-releasing factor, mSOS, were comparable in both groups. We, therefore, conclude that prevention of autoimmune diabetes by linomide is associated with up-regulation of the p21(ras) T cell signal transduction defect in NOD mice.
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PMID:Prevention of autoimmune diabetes by linomide in nonobese diabetic (NOD) mice is associated with up-regulation of the TCR-mediated activation of p21(ras). 890 54

This study evaluates polymorphonuclear neutrophil (PMN) cell performance in 61 diabetic patients free of infection (40 Type 1, 21 Type 2), using tests that explore all the functional steps of PMN: (1) adherence: expression of adhesion molecules, CD 11a, CD 11b, CD 11c; nylon fiber adherence test; (2) chemotaxis under agarose towards the bacterial oligopeptide FMLP and complement fractions, used as attracting agents; (3) phagocytosis of opsonized latex microbeads; (4) bactericidal activity: chemiluminescence assessment of the oxidative killing potential before and after stimulation by opsonized zymosan and PMA; nitroblue tetrazolium reduction test. Results were analysed according to potentially influential factors: metabolic control (HbA1C, glycaemia), age of patient, type of diabetes, disease duration, and existence of vascular complications. PMN chemotaxis was significantly lower in patients than in healthy controls (p < 0.001) and associated with spontaneous adherence and increased expression of adhesion molecules (CD 11b, CD 11c). The increased response to chemiluminescence reflects spontaneous activation of PMN cells and increased free radical production; after stimulation, response was lower than in controls. The type of diabetes, the age of patients, HbA1C level and disease duration did not affect the responses. Chemotaxis and chemiluminescence were further reduced in patients with vascular complications and hyperglycaemia. We conclude that all steps of PMN functioning are altered in diabetic patients, which may increase the risk of vascular complications and infectious episodes.
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PMID:Impaired leucocyte functions in diabetic patients. 901 50

Advanced glycosylation end products (AGE) are implicated in many of the complications of diabetes. In the same way, infectious diseases are frequently associated with this disease. An impaired respiratory burst in macrophages may be a cause of infectious complications in diabetic patients. To establish a possible mechanism of this altered cell function, we have analyzed the effect of AGE-modified proteins on PMA-dependent superoxide anion production (O2.-) from normal rat peritoneal macrophages. We have used AGE-modified bovine serum albumin (AGE-BSA) prepared by incubation with glucose. AGE-BSA partially inhibits the phorbol ester-dependent superoxide production by macrophages in vitro. The specificity of this inhibitory effect is demonstrated by the fact that aminoguanidine, an inhibitor of the formation of AGE products, fully prevents the effect of AGE-BSA in vitro. Macrophages from diabetic rats shown an inhibition on PMA dependent-O2.- production. However, the treatment in vivo with aminoguanidine produced a cancelation of the inhibitory effect observed in the diabetic state. These data suggest that AGE-modified proteins could be implicated in the impairment of macrophage respiratory burst in diabetes.
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PMID:Inhibitory effect of albumin-derived advanced glycosylation products on PMA-induced superoxide anion production by rat macrophages. 919 83

Despite its widespread use, much is wrong with conventional subcutaneous insulin injection. It is more-or-less painful and inconvenient; it delivers insulin slowly with highly inconsistent pharmacokinetics into the peripheral venous system rather than directly to the liver via the portal vein; and, once delivered into the skin, it cannot be "turned off". This review has focused on novel alternative approaches to insulin delivery. The clinically available insulin delivery devices, such as pen injectors and external insulin pumps, are probably underutilized. Pen injectors offer convenience, whereas external pumps offer a basal/bolus approach to insulin delivery unlike that achieved by injections. Of the approaches currently under development, IPPs are closet to general availability. They have been extremely popular in more than 600 patients worldwide, however, an insulin problem has delayed application for their PMA in the United States. Feasibility studies of inhaled insulin, nasal insulin, and oral insulin have produced interesting preliminary findings, with pulmonary delivery for meal coverage with short-acting insulin having perhaps the brightest prospects. Encapsulated islets and biohybrid systems that place live islets into an implanted device are in earlier stages of development. Closing the loop with a continuous glucose sensor will be the only way to achieve truly normal blood glucose homeostasis by directing insulin delivery automatically on demand. Glucose sensors would have many other clinical applications in diabetes management in addition to driving a mechanical delivery system. However, the development of glucose sensing devices has been a formidable technical challenge. Based on an evaluation of current technologic development, glucose oxidase-based, needle-type sensors may become available within the next few years. Clinicians, the research community, and persons with diabetes can join in rejecting the notion that standard regimens of insulin injection do not need to be improved. If there is adequate incentive to continue a broad-based research effort into novel approaches to insulin delivery, the quality of life of persons with diabetes can be improved in the not too distant future.
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PMID:Novel forms of insulin delivery. 931 17

The function of neutrophil can be evaluated by measuring oxidative metabolism using chemiluminescence, tetrazolium dye reduction or the others. Those results are not always satisfactory which would be caused by subtle difference in each preparation of the reagents and the lack of reproducibility. Recently, flow cytometric procedures for semi-quantitating superoxide production in neutrophils have been developed to evaluate their function. This procedure, which requires only small amount of whole blood, can easily and rapidly yield reproducible and reliable data. In this study, we optimized analytical conditions and then determined reference interval to evaluate neutrophil function of patients with various disorders. Optimal concentrations and incubation times of DCFH-DA and PMA were 5 mumol/l for 15 minutes and 25 micrograms/ml for 20 minutes, respectively. Production of superoxide in neutrophil was represented by relative fluorescence intensity(RFI) with assay coefficient of variance(CV) of 4.0-11.1%. Neutrophils had to be examined within 2 hours after venipuncture to obtain reliable data. Reference interval was determined as 170.4 +/- 58.7(mean +/- SD) RFI. Neutrophil function of patients with neutropenia, paroxysmal nocturnal hemoglobinuria(PNH), renal failure, systemic lupus erythematosus(SLE), myeloperoxidase deficiency, myelodysplastic syndrome(MDS), and diabetes mellitus were within the reference interval as evaluated by this method. Only neutrophils of chronic granulomatous disease, which is known to give clearly low superoxide production, showed actually decreased value. These results indicate that this procedure would be clinically useful for diagnosis of patient with impaired neutrophil function.
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PMID:[Determination of neutrophil function by measuring superoxide production with whole blood flow cytometry]. 939 45

Studies were performed to determine the interactive effects of high concentrations of glucose (HG) and epidermal growth factor (EGF) on the release of arachidonic acid (3H-AA) in human glomerular mesangial cells (MC) in culture. Since high glucose has been reported to increase the mass of diacylglycerol (DAG) in MC, the HG-induced release of 3H-AA was compared to that initiated by the phorbol ester, PMA. It was found that when media contained high levels (25 mM) of glucose, the release of 3H-AA was increased significantly by 8.4% (change from control) after 1 h of exposure and was maintained at values not significantly different from this level for the next 2 h. After 3-h exposure, there was no significant difference between 25 and 50 mM glucose, suggesting that the effects of glucose are saturating at 25 mM. After 1-h exposure, 3H-AA release was also increased by PMA; however, the increase was larger and the peak increase was delayed until after 1 h. 3H-AA release was significantly increased by epidermal growth factor (EGF) by 8.5% after 1 h and was maintained at this level after 2 and 3 h of exposure. In the presence of HG, EGF increased 3H-AA release by 24.6% after the 1st hour and by 20.4 and 19.4%, after the 2nd and 3rd hours, respectively. Mannitol (20 mM), added as an osmotic control, increased 3H-AA release by 6.2% and also significantly enhanced the effects of EGF after 3 h. The experimental values (19.0%) for the release of 3H-AA after 3-h exposure to EGF in combination with either high glucose or mannitol were significantly greater than the expected (added) values (12.1%). These results demonstrate that as a result of an elevated solution osmolality, high glucose acts synergistically with EGF to increase the release of 3H-AA in human mesangial cells.
Diabetes Res Clin Pract 1999 Jan
PMID:Potentiating effects of hyper-osmolality and epidermal growth factor on the release of arachidonic acid in human glomerular mesangial cells. 1019 85

Sulfonylureas are generally used in the therapeutic treatment of non-insulin-dependent diabetes mellitus. Little is known, however, whether they also affect the lipid metabolism. Using glibenclamide (GB), a typical sulfonylurea, we have investigated its effects on the lipid metabolism in macrophages, J774 and phorbol ester-treated THP-1 cells. In the whole-cell assay system for cholesteryl ester (CE) accumulation that is induced by addition of chemically modified low-density lipoprotein (LDL), such as Ac-LDL and ox-LDL, GB effectively inhibited the CE accumulation of J774 cells in dose-dependent manners. The inhibition was resulted from increase in free cholesterol but not from change in total cholesterol amount. The results suggest that GB acts on acyl-CoA: cholesterol acyltransferase (ACAT) and inhibits its activity. To confirm the possibility, we then tested GB by another assay system using ACAT that was solubilized from the cells and reconstituted into the liposome composed of phosphatidyl choline- cholesterol. GB inhibition was not so much effective as those by CI-976 and NTE-122, known ACAT inhibitors, but the inhibition was complete in the presence of 100 microM GB. Using cell homogenates of PMA-stimulated THP-1 cells, GB also inhibited the ACAT activity to the level of undifferentiated THP-1 cells. These results indicate that GB acts as ACAT inhibitor but the chemical structure is quite different from the conventional ACAT inhibitors, suggesting it can be a seed to generate potential ACAT inhibitors which do not exhibit toxicity in adrenal gland.
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PMID:[Glibenclamide inhibits cholesterol metabolism in macrophage]. 1062 72

Rat glomerular mesangial cells (GMC) express P2Y(2) purinoceptors and respond to nucleotide stimuli with a transient increase in the cytosolic Ca(2+) concentration and the receptors desensitize upon repeated stimulation with nucleotide. We demonstrate that there is a cross-talk from the signaling of tyrosine kinase to P2Y(2) receptors. For most cells repeated applications of ATP completely abolished the response, as did activation of PKC with 500 nM PMA. In contrast, preincubation with the PKC inhibitor chelerythrine (100 nM) prevented desensitization. Desensitization after application of ATP was reversed by subsequent incubation with PDGF-BB (50 ng/ml) or insulin (660 mU/ml). We conclude that the desensitization is caused by phosphorylation due to PKC and is under the control of growth factors. The findings support the hypothesis that growth hormones potentiate nucleotides as proinflammatory mediators and we hypothesize that they have bearing on the hyperfiltration seen in diabetes.
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PMID:Growth hormones reverse desensitization of P2Y(2) receptors in rat mesangial cells. 1075 69

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