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)

Diabetic cardiomyopathy has been documented as an underlying etiology of heart failure (HF) among diabetics. Although oxidative stress has been proposed to contribute to diabetic cardiomyopathy, much of the evidence lacks specificity. Furthermore, whether alterations occur at the cardiac proteome level in diabetic cardiac complications with attendant oxidative stress remains unknown. Therefore, we sought to identify cardiac protein changes in relation to myocardial oxidative stress that are specific to diabetic cardiomyopathy. Diabetes was induced in rats by a single injection of streptozotocin (STZ). STZ-treated rats were examined for diabetic cardiomyopathy at 8 weeks post-STZ by left ventricular (LV) hemodynamic analysis. LV systolic pressure (LVSP), rate of pressure rise (+dP/dt), and rate of pressure decay (-dP/dt) were depressed while LV end-diastolic pressure (LVEDP) was increased. Myocardial oxidative stress was increased in STZ-diabetic rats, as indexed by significant increases in myocardial formation of 8-iso PGF(2alpha) and oxidized glutathione (GSSG). In-depth mining of the diabetic myocardial proteome by proteomic analysis utilizing two-dimensional difference gel electrophoresis and mass spectrometry (DIGE/MS) techniques revealed that a high proportion (12 of 24) of the altered proteins that could be identified by mass spectrometry were localized to the mitochondria. Down-regulation of antioxidant and anti-apoptotic proteins was also observed in STZ-diabetic hearts. These results characterize a specific 'type I diabetic' pattern of cardiac proteome changes indicative of diabetic cardiomyopathy presenting with higher oxidative stress, supporting the idea that analysis of isoprostane biosynthesis and protein expression profiles may be useful diagnostically to assess the efficacy of antioxidant therapies as prophylactic treatments against type I diabetes mellitus complications involving the heart.
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PMID:Alterations in the diabetic myocardial proteome coupled with increased myocardial oxidative stress underlies diabetic cardiomyopathy. 1732 Jan

Inhibitory effects of reduced glutathione (GSH) on serum enzymes including alanine aminotransferase (AST), lactate dehydrogenase (LDH) and creatine kinase (CK) were investigated in the hypoglycemic rabbits. Hypoglycemia lasting for 60 min was induced by intravenous injection of insulin (10U/kg) and then recovered by intravenous glucose injection. Serum levels of ALT, AST, LDH and CK increased significantly (p<0.05) at 6h after the induction of hypoglycemia. Plasma GSH, oxidized glutathione (GSSG) and total glutathione (TGSH) began to increase significantly (p<0.05) at 1h after the insulin injection, and GSSG/TGSH ratio rose significantly (p<0.05) at 6h after the induction of hypoglycemia. GSSG contents and GSSG/TGSH ratio in quadriceps significantly increased during hypoglycemia. Administration of GSH significantly decreased plasma GSSG levels, GSSG/TGSH ratio (p<0.05) and suppressed the rise of serum enzymes induced by hypoglycemia. These results suggest that GSH administration may play a preventive role for increases of serum enzymes by experimental hypoglycemia.
Diabetes Res Clin Pract 2007 Sep
PMID:Glutathione suppresses increase of serum creatine kinase in experimental hypoglycemia. 1732 29

Oxidative stress may play a role in the pathogenic mechanism of essential hypertension. Lipid peroxidation can alter the cellular structure of membrane-bound enzymes by changing the membrane phospholipids fatty acids composition. We investigated the relationship between (Na + K)-ATPase activity, lipid peroxidation, and erythrocyte fatty acid composition in essential hypertension. The study included 40 essential hypertensive and 49 healthy normotensive men (ages 35-60 years). Exclusion criteria were obesity, dyslipidemia, diabetes mellitus, smoking, and any current medication. Patients underwent 24-h ambulatory blood pressure monitoring and blood sampling. Lipid peroxidation was measured in the plasma and erythrocytes as 8-isoprostane or malondialdehyde (MDA), respectively. Antioxidant capacity was measured as ferric reducing ability of plasma (FRAP) in the plasma and as reduced/oxidized glutathione (GSH/GSSG ratio) in erythrocytes. (Na + K)-ATPase activity and fatty acids were determined in erythrocyte membranes. Hypertensives had higher levels of plasma 8-isoprostane, erythrocyte MDA, and relative percentage of saturated membrane fatty acids, but lower plasma FRAP levels, erythrocyte GSH/GSSG ratio, (Na + K)-ATPase activity and relative percentage of unsaturated membrane fatty acids, compared with normotensives. Day-time systolic and diastolic blood pressures correlated positively with lipid peroxidation parameters, but negatively with (Na + K)-ATPase activity. These findings suggest that the modulation of (Na + K)-ATPase activity may be associated with changes in the fatty acid composition induced by oxidative stress and provide evidence of a role for this enzyme in the pathophysiology of essential hypertension.
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PMID:Relationship between (Na + K)-ATPase activity, lipid peroxidation and fatty acid profile in erythrocytes of hypertensive and normotensive subjects. 1741 Apr 6

The therapeutic potential of lipoic acid (LA) in diabetes and diabetic nephropathy treatment was elucidated. Alloxan diabetic rabbits were treated daily for three weeks with either 10 or 50 mg of LA per kg body weight (i.p.). The following parameters were measured: 1) serum glucose, urea, creatinine and hydroxyl free radical (HFR) levels; 2) blood glutathione redox state; 3) urine albumin concentration; 4) hepatic and renal HFR levels, GSH/GSSG ratios, cysteine contents and the activities of the enzymes of glutathione metabolism; and 5) the activity of renal NADPH oxidase. Histological studies of kidneys were also performed. The treatment of diabetic rabbits with 50 mg of LA resulted in lethal hypoglycaemia in 50% of animals studied. Although the low dose of LA did not change serum glucose concentration, it decreased serum urea and creatinine concentrations, attenuated diabetes-induced decline in GSH/GSSG ratio and abolished hydroxyl free radicals accumulation in serum, liver and kidney cortex. LA did not change the activities of the enzymes of glutathione metabolism, but it elevated hepatic content of cysteine, which limits the rate of glutathione biosynthesis. Moreover, LA lowered urine albumin concentration and attenuated glomerulopathy characteristic of diabetes. However, it did not affect diabetes-stimulated activity of renal NADPH oxidase. In view of these data, it is concluded that low doses of LA might be useful for the therapy of diabetes and diabetic nephropathy. Beneficial action of LA seems to result mainly from direct scavenging of HFR and restoring glutathione redox state due to elevation of intracellular cysteine levels.
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PMID:Lipoic acid ameliorates oxidative stress and renal injury in alloxan diabetic rabbits. 1815 51

This study investigated the association of blood pressure with blood oxidative stress-related parameters in normotensive and hypertensive subjects. A cross-sectional design was applied to 31 hypertensive patients and 35 healthy normotensive subjects. All subjects were men between the ages of 35 and 60 years. Exclusion criteria were obesity, dyslipidemia, diabetes mellitus, smoking and current use of any medication. All patients underwent 24-h ambulatory blood pressure monitoring and sampling of blood and urine. Antioxidant enzymes activity, reduced/oxidized glutathione ratio (GSH/GSSG), and lipid peroxidation (malondialdehyde) were determined in erythrocytes. Parameters measured in the plasma of test subjects were plasma antioxidant status, lipid peroxidation (8-isoprostane), plasma vitamin C and E, and the blood pressure modulators renin, aldosterone, endothelin-1 and homocysteine. Daytime systolic and diastolic blood pressures of hypertensives were negatively correlated with plasma antioxidant capacity (r=-0.46, p<0.009 and r=-0.48, p<0.007), plasma vitamin C levels (r=-0.53, p<0.003 and r=-0.44, p<0.02), erythrocyte activity of antioxidant enzymes, and erythrocyte GSH/GSSG ratio, with hypertensives showing higher levels of oxidative stress. Blood pressures showed a positive correlation with both plasma and urine 8-isoprostane. Neither plasma vitamin E nor the assessed blood pressure modulator levels showed significant differences between the groups or correlation with blood pressures. These findings demonstrate a strong association between blood pressure and some oxidative stress-related parameters and suggest a possible role of oxidative stress in the pathophysiology of essential hypertension.
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PMID:Relationship between oxidative stress and essential hypertension. 1834 20

Type I diabetes in humans and streptozotocin (STZ)-induced diabetes in rats has been associated with oxidative stress, but antioxidant therapy has given contradictory results, in part related to the absence of common conditions used to evaluate in-vivo antioxidant properties. This prompted the study of an experimental model of antioxidant therapy in STZ-treated rats. Adult female rats received STZ (50 mgkg(-1)) and were studied 7 or 14 days later. Adipose tissue weight progressively decreased with the time of treatment, whereas plasma triglycerides increased at 7 days, before returning to control values at 14 days after STZ treatment. STZ diabetic rats had increased plasma thiobarbituric acid reacting substances and alpha-tocopherol levels, but the latter variable was decreased when corrected for total lipids. STZ diabetic rats showed a higher GSSG/GSH ratio at Day 14 and lower GSH + GSSG at Day 7 in liver. To evaluate the effect of short-term antioxidant therapy, rats received 5 doses of vitamins C and E over 3 days before being killed on Day 14. Treatment with antioxidants decreased plasma lactic acid and thiobarbituric acid reacting substances, as well as urine 8-isoprostane, and decreased plasma uric acid in controls. Vitamins increased the plasma alpha-tocopherol/lipids ratio only in control rats, although the plasma and liver alpha-tocopherol concentration increased in both groups. STZ diabetic rats showed moderate oxidative stress and treatment with antioxidant vitamins caused a significant change in a selected group of oxidative stress markers, which reflected an improvement in some of the complications associated with this disease. The present experimental conditions can be used as a sensitive experimental model to study the responsiveness of diabetes to other antioxidant interventions.
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PMID:Evolution of oxidative stress parameters and response to oral vitamins E and C in streptozotocin-induced diabetic rats. 1854 73

11beta-Hydroxysteroid dehydrogenase1(11beta-HSD1) can serve either as an oxo-reductase or dehydrogenase determined by the redox state in the endoplasmic reticulum (ER). This bidirectional enzyme governs paracrine glucocorticoid production. Recent in vitro studies have underscored the key role of cytoplasmic glucose-6-phosphate (G6P) in controlling the flux direction of 11betaHSD-1 by altering the intraluminal ER NADPH/NADP ratio. The hypothesis that other hexose phosphoesters or the plentiful cellular oxidative protector glutathione could also regulate microsomal 11betaHSD-1 activity was tested. Fructose-6-phosphate increased the activity of 11beta-HSD1 reductase in isolated rat and porcine liver microsomes but not porcine fat microsomes. Moreover, oxidized glutathione (GSSG) attenuated 11beta-HSD1 reductase activity by 40% while reduced glutathione (GSH) activated the reductase in liver. Fat microsomes were unaffected because they lack glutathione reductase. Nonetheless, another oxidizing agent, hydrogen peroxide (0.5mM), inhibited both fat and liver 11beta-HSD1 reductase. Consistent with the major role of the redox state, 2.5mM GSSG and hydrogen peroxide augmented the 11beta-HSD1 dehydrogenase, antithetical to the reductase, by 20-30% in liver microsomes. Given the key role of reactive oxygen species and hexose phosphate accumulation in the pathoetiology of obesity and diabetes, these compounds might also modify 11beta-HSD1 in these conditions.
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PMID:Modification of microsomal 11beta-HSD1 activity by cytosolic compounds: glutathione and hexose phosphoesters. 1855 Mar 63

We aimed to investigate whether metformin protects the brain against the oxidative imbalance promoted by type 2 diabetes. This study analyzed the effect of metformin on oxidative stress markers (thiobarbituric acid reactive substances (TBARS), malondialdehyde (MDA) and carbonyl groups), hydrogen peroxide (H(2)O(2)) levels, non-enzymatic antioxidant defenses [reduced (GSH) and oxidized (GSSG) glutathione and vitamin E] and enzymatic antioxidant defenses [glutathione peroxidase (GPx), glutathione reductase (GRed) and manganese superoxide dismutase (MnSOD)] in brain homogenates of diabetic GK rats, a model of type 2 diabetes. For this purpose we compared brain homogenates obtained from untreated GK rats versus GK rats treated with metformin during a period of 4 weeks. Brain homogenates obtained from Wistar rats were used as control. The MDA levels, GPx and GRed activities are significantly higher in untreated GK rats, while TBARS levels, carbonyl groups, glutathione content and vitamin E levels remain statistically unchanged when compared with control rats. In contrast, MnSOD activity and the levels of H(2)O(2) are significantly decreased in untreated GK rats when compared with control animals. However, metformin treatment normalized the majority of the parameters altered by diabetes. We observed that metformin, besides its antihyperglycemic action, induces a significant decrease in TBARS and MDA levels, GPx and GRed activities and a significant increase in GSH levels and MnSOD activity. These results indicate that metformin protects against diabetes-associated oxidative stress suggesting that metformin could be an effective neuroprotective agent.
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PMID:Metformin protects the brain against the oxidative imbalance promoted by type 2 diabetes. 1867 48

The therapeutic potential of taurine was investigated under diabetic conditions. Alloxan diabetic rabbits were treated daily for three weeks with 1% taurine in drinking water. The following parameters were measured: 1) serum glucose, urea, creatinine and hydroxyl free radical (HFR) levels; 2) blood glutathione redox state; 3) urine albumin concentration; 4) hepatic and renal HFR levels, GSH/GSSG ratios and the activities of catalase, superoxide dismutase and the enzymes of glutathione metabolism; 5) renal NADPH oxidase activity; 6) the rates of renal and hepatic gluconeogenesis. Histological studies of kidneys were also performed. Taurine administration to diabetic rabbits resulted in 30% decrease in serum glucose level and the normalisation of diabetes-elevated rate of renal gluconeogenesis. It also decreased serum urea and creatinine concentrations, attenuated diabetes-evoked decline in GSH/GSSG ratio and abolished hydroxyl free radicals accumulation in serum, liver and kidney cortex. Animals treated with taurine exhibited elevated activities of hepatic gamma-glutamylcysteine syntetase and renal glutathione reductase and catalase. Moreover, taurine treatment evoked the normalisation of diabetes-stimulated activity of renal NADPH oxidase and attenuated both albuminuria and glomerulopathy characteristic of diabetes. In view of these data, it is concluded that: 1) diminished rate of renal gluconeogenesis seems to contribute to hypoglycaemic effect of taurine; 2) taurine-induced increase in the activities of catalase and the enzymes of glutathione metabolism is of importance for antioxidative action of this amino acid and 3) taurine nephroprotective properties might result from diminished renal NADPH oxidase activity. Thus, taurine seems to be beneficial for the therapy of both diabetes and diabetic nephropathy.
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PMID:Hypoglycaemic, antioxidative and nephroprotective effects of taurine in alloxan diabetic rabbits. 1895 17

Antidiabetic action of inorganic selenium compounds is commonly accepted. Since in diet selenium mainly exists as selenoamino acids, potential hypoglycemic properties of methylselenocysteine (MSC) were investigated in four groups of rabbits: untreated and MSC-treated control animals as well as alloxan-diabetic and MSC-treated diabetic rabbits. MSC (at a dose of 1mg/kg body weight) was administered daily for 3 weeks via intraperitoneal injection. The data show, that in MSC-treated control animals plasma glucose concentration was diminished, while plasma urea and creatinine levels as well as urine albumin content were elevated and necrotic changes occurred in kidney-cortex. Decreased GSH/GSSG ratios in blood, liver and kidney-cortex were accompanied by increased glutathione peroxidase and glutathione reductase activities and a diminished renal gamma-glutamylcysteine synthetase activity. Death of 50% of control animals was preceded by a dramatic decline in blood glucose concentration. Surprisingly, in MSC-treated diabetic rabbits, plasma glucose levels were either normalized or significantly decreased. Blood and liver GSH/GSSG ratios were increased and renal functions were markedly improved, as indicated by a diminished albuminuria and attenuated histological changes characteristic of diabetes. However, after administration of MSC to diabetic rabbits plasma urea and creatinine levels as well as renal GSH/GSSG ratios were not altered. In view of MSC-induced marked accumulation of selenium in kidneys and liver of control rabbits, accompanied by a decline in blood glucose level, disturbance of glutathione homeostasis and kidney-injury, application of MSC in chemotherapy needs a careful evaluation. On the contrary, MSC supplementation might be beneficial for diabetes therapy due to an improvement of both glycemia and renal function.
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PMID:Differential action of methylselenocysteine in control and alloxan-diabetic rabbits. 1901 Mar 15

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