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 defense system of aortic endothelial cells against oxidative stress was studied in alloxan-induced diabetic rabbits, and the effect of insulin on the antioxidant activities was estimated. Endothelial cells were prepared from 10 diabetic rabbits, 18 diabetic rabbits treated with insulin, and 10 age-matched controls after 17 days of diabetes. These cells were used for the estimation of glutathione (GSH) levels and its related enzyme activities. The antioxidant activities in these endothelial cells from diabetic rabbits were compared with those from control subjects. The concentration of GSH decreased in diabetic rabbits (1.6 +/- 0.2 nmol/mg protein [mean +/- SD] v 3.7 +/- 0.6 nmol/mg protein). Decreases in the activities of Cu, Zn-superoxide dismutase (Cu,Zn-SOD) (62.7 +/- 11.0 U/mg protein v 172.9 +/- 20.2 U/mg protein), catalase (7.6 +/- 2.1 U/mg protein v 12.3 +/- 3.2 U/mg protein), and GSH peroxidase (134.0 +/- 27.0 mU/mg protein v 179.1 +/- 26.2 mU/mg protein) were observed. The activities of other GSH-related enzymes such as GSH S-transferase or GSH reductase did not change in endothelial cells from diabetic rabbits. Most of these antioxidant activities were prevented when diabetic rabbits were treated with insulin (1 to 2 U/kg/d). These antioxidant activities were also determined in the diabetic liver and kidney. Similar decreases in the cellular defense activities and prevention of the decrease in activities by insulin were observed in the diabetic liver, while these antioxidant enzyme activities in the kidney were resistant to diabetic conditions.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of insulin on impaired antioxidant activities in aortic endothelial cells from diabetic rabbits. 140 92

This study reports on the effect of streptozotocin (STZ) induced diabetes on water soluble-SH and -SS, as well as on hepatic glutathione peroxidase (GSH-Px), catalase and superoxide dismutase (SOD) activity and on malondialdehyde (MDA) content. In addition, we determined serum concentrations of glucose, cholesterol, triglycerides and thyroxine, and thyroid weight. To elucidate the possible impact of exogenous iodine on impaired free radical tissue defense mechanisms STZ-diabetic rats were exposed to iodine brine providing for a daily iodide uptake of about 300 micrograms/kg body weight. STZ-exposure caused a decline in thyroid weight (p less than 0.01) and in total serum thyroxine (p less than 0.001), as well as a fall in hepatic catalase (CAT) activity (p less than 0.01) versus control group. Impairment of catalase activity was related to serum glucose level (r = -0.569, p less than 0.01), while hepatic MDA was positively related to serum glucose (r = + 0.5, p less than 0.01). No protective effects of iodine brine were seen with regard to impairment by STZ of antioxidant enzyme status. We conclude that impairment by STZ of antioxidant enzymes may contribute to STZ-dependent experimental diabetes.
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PMID:Alterations of antioxidant tissue defense enzymes and related metabolic parameters in streptozotocin-diabetic rats--effects of iodine treatment. 150 40

Tissue antioxidant status may be compromised under conditions of dietary restriction, either as the result of a deficiency in a specific cofactor required by a particular antioxidant enzyme or of more complex alterations of a generalized nature triggered by metabolic responses to starvation. Many similarities exist between insulin-reversible abnormalities in tissue antioxidant enzyme activities seen in experimental diabetes and in animals subjected to food deprivation-induced weight loss which is associated with hypoinsulinemia. The complex alterations in tissue antioxidant enzyme activities resulting from nutritional deficiency states, disease or drug administration may have important clinical consequences. Free radical-related processes have been implicated in the pathology of certain conditions in which weight loss is frequently recommended (e.g., diabetes and atherosclerosis). It will be important to investigate the possible adverse effects of this intervention on the underlying disease process involved. Glutathione-dependent hepatic detoxification processes are impaired under conditions of nutritional deficiency. This finding not only has important clinical implications but the standard practice of fasting small laboratory animals overnight to ensure reliable drug absorption can markedly influence the results of pharmacological/toxicological experiments. Further studies of the influence of nutritional status on free radical-related processes are likely to yield valuable information which may be applicable to a variety of research and clinical problems.
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PMID:Nutritional deficiency, starvation, and tissue antioxidant status. 307 49

Previous studies from our laboratory have demonstrated the presence of complex alterations in the activities of antioxidant enzymes in various tissues of rats with streptozotocin (STZ)-induced diabetes. In the present investigation, it is shown that rats made diabetic with alloxan (ALX), an agent differing from STZ both chemically and in its mechanism of diabetogenesis, show virtually identical tissue antioxidant enzyme changes which, as is the case with STZ, are preventable by insulin treatment. The finding that the patterns of antioxidant enzyme alterations in chemically-induced diabetes are independent of the diabetogenic agent used and the presence of similar abnormalities in tissues of spontaneously diabetic (BB) Wistar rats (particularly when diabetic control is less than optimal) suggest that the changes observed are a characteristic feature of the uncontrolled diabetic state and that these may be responsible for (or predispose to) the development of secondary complications in clinical diabetes. Comparative studies involving red cells of diabetic rats and human diabetics revealed a number of common changes, namely an increase in glutathione reductase activity, a decreased susceptibility to oxidative glutathione depletion (which was related to the presence of hyperglycemia) and an increased production of malondialdehyde (an indirect index of lipid peroxidation) in response to in vitro challenge with hydrogen peroxide. In the diabetic patients, the extent of this increase in susceptibility of red cell lipids to oxidation paralleled the severity of diabetic complications. Our results suggest that increased (or uncontrolled) oxidative activity may play an important role in the pathogenesis of complications associated with the chronic diabetic state.
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PMID:Antioxidant enzyme alterations in experimental and clinical diabetes. 323 Dec 24

We investigated the possible involvement of reactive oxygen radical-related processes in chronic (12-wk) diabetes induced in rats by streptozocin (STZ). Diabetes was associated with significantly increased activities of catalase (CAT), glutathione reductase (GSSG-RD), and CuZn-superoxide dismutase (SOD) in the pancreas and of CAT and GSSG-RD in the heart. On the other hand, the liver of diabetic rats showed a generalized decrease in CAT, glutathione peroxidase (GSH-PX), and SOD as well as in the levels of reduced glutathione (GSH). Diabetic kidney also showed decreases in CAT and SOD, but the activities of GSH-PX were increased. Insulin treatment (9-12 U/kg body wt) that was started after 8 wk of diabetes and continued for 4 wk reversed all of the foregoing alterations in tissue antioxidant status. Our results suggest the presence of increased oxidative stress in uncontrolled diabetes as manifested by the marked alterations in tissue antioxidant enzyme activities, the magnitude of which increased with the degree of emaciation. The complex patterns of changes observed in the various tissues examined are believed to be the result of compensatory increases in enzyme activities (usually involving enzymes whose activity in control tissues is low) and direct inhibitory effects, possibly resulting from an increased tissue-oxidant activity. Our findings support the view that tissue antioxidant status may be an important factor in the etiology of diabetes and its complications.
Diabetes 1987 Sep
PMID:Alterations in free radical tissue-defense mechanisms in streptozocin-induced diabetes in rat. Effects of insulin treatment. 330 71

Offspring of experimentally induced diabetic animals demonstrate delays in functional, biochemical, and morphological aspects of lung maturation, dealing mainly with the surfactant system. To investigate whether the development of the lung antioxidant enzyme system would be similarly delayed, and thus compromise their tolerance to high O2 exposure, we did the following: 1) produced the diabetic state in rats with streptozotocin injection 24 h after the onset of pregnancy; 2) examined fetal animals from streptozotocin and control rats at gestational days 19, 20, and 21, and newborn animals at day 22 for whole lung disaturated phosphatidylcholine and total phospholipid and for the three antioxidant enzymes: superoxide dismutase, catalase, glutathione peroxidase; and 3) exposed newborn offspring from streptozotocin-treated and control rats to greater than 95% O2 for several days and their survival, changes in antioxidant enzymes and disaturated phosphatidylcholine and light microscopic findings in response to hyperoxic challenge were compared. Streptozotocin offspring demonstrated essentially no developmental differences in whole lung disaturated phosphatidylcholine, total phospholipid, or antioxidant enzymes activity at the 4 gestational days studied. However, newborns of streptozotocin mothers had consistently superior tolerance to hyperoxic exposure, consisting of increased survival [23/34 (68%) versus 8/26 (31%) in controls, after O2-exposure for 13 days, p less than 0.001], microscopic evidence of reduced inhibition of alveolarization (p less than 0.05), and a trend toward greater antioxidant enzymes response. Thus, in this animal model of experimental diabetes, neither the development of the antioxidant enzymes system nor the development of the surfactant system (as assessed by whole lung disaturated phosphatidylcholine and total phospholipid) appear delayed.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Lung development in the streptozotocin rat fetus: antioxidant enzymes and survival in high oxygen. 375 56

Male weanling rats were fed diets containing either adequate (6.2 mg/kg) or deficient (0.82 mg/kg) quantities of copper for 35 days. Six rats from each group (n = 12) were then injected with streptozotocin to induce diabetes. Rats were killed after a further 16 days and tissues removed for the analysis of the copper level and antioxidant enzyme activities. Diabetes resulted in increased cardiac catalase, glutathione S-transferase (GST), copper-zinc superoxide dismutase and manganese superoxide dismutase activities. Renal catalase levels were decreased in diabetes, while glucose-6-phosphate dehydrogenase activity (G6PDH) was increased. Diabetes significantly decreased the activities of hepatic GST and G6PDH. The combination of diabetes and copper deficiency resulted in increased levels of hepatic GST, glutathione peroxidase and glutathione reductase. Hepatic and renal tissue copper levels were also increased in diabetes, apparently improving copper status in the copper-deficient rats. Alterations of antioxidant enzyme activities in diabetes were suggestive of increased oxidant stress, especially in cardiac tissue.
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PMID:Effects of copper deficiency and experimental diabetes on tissue antioxidant enzyme levels in rats. 771 Feb 61

Pancreatic superoxide dismutase (SOD) and glutathione peroxidase (GSHPx) activities were measured during the development of diabetes in diabetes-prone BB rats (BBdp) prior to insulin dependence. The pancreata from seven to eight BBdp rats of each sex were examined at ages 5, 7, 10, and 18 weeks and compared with age-matched control BB rats (BBc). At Week 18, BBdp rats had moderate to high insulitis but normal levels of blood glucose and insulin. Pancreatic CuZnSOD activity in BBdp rats was two times higher than the activity seen in BBc rats at age 5-10 weeks but then declined to the same level as seen in BBc rats at 18 weeks of age. MnSOD activity increased over time in the BBdp rats but remained very low in BBc rats. These changes in CuZnSOD and MnSOD activity resulted in BBdp rats having twice the pancreatic total SOD activity compared with BBc rats (P < 0.0001). Total GSHPx activity was significantly reduced in the pancreata from both male and female BBdp rats compared with their respective controls (P < 0.01 and P < 0.0001, respectively). The lower total GSHPx activity was due to reduced selenium-dependent GSHPx (SeGSHPx) activity. Erythrocyte and plasma activity of these enzymes was not different between rats with or without insulitis, indicating that differences in enzyme activities were confined to the pancreas. Thus, changes in pancreatic antioxidant enzyme activities occur prior to the development of diabetes symptoms in BBdp rats and may be related to the destruction of the pancreatic B cells and ultimate development of diabetes.
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PMID:Changes in pancreatic glutathione peroxidase and superoxide dismutase activities in the prediabetic diabetes-prone BB rat. 793 51

The effect of alloxan-induced diabetes on CuZn- and Mn-superoxide dismutase (SOD), catalase and glutathione peroxidase (GPX) activities, as well as the content of thiobarbituric acid reactive substances (TBARs) were examined in rat lymphoid organs (mesenteric lymph nodes (MLN), thymus and spleen) and, for comparison, red and white muscle fibres. The capacity for generation of reduced equivalents was also evaluated by measuring the activities of glucose-6-phosphate dehydrogenase (pentose-phosphate pathway-cytosol) and citrate synthase (Krebs cycle-mitochondria). Diabetes raised the capacity for the generation of reducing equivalents in the lymphoid organs: in the mitochondria of the thymus and spleen and in the cytosol of the mesenteric lymph nodes and thymus. In muscles, diabetes reduced CuZn-SOD activity in soleus and raised the activity in gastrocnemius, and depressed the activities of catalase in soleus and of glutathione peroxidase in both soleus and gastrocnemius. In relation to the lymphoid organs, the spleen showed a decrease in the antioxidant enzyme activities (except for glutathione peroxidase), whereas the thymus showed an increased level (except for Mn-SOD), and the MLN presented a reduction in Mn-SOD and catalase activities and an increase in GPX activity caused by diabetes. The content of TBARs in the tissues followed the changes in GPX activity inversely: i.e. a decrease in the lymphoid organs (except in the spleen) and an increase in the muscles of diabetic rats compared with the control group. All these changes found in diabetic rats were reversed by insulin treatment and were not modified by the normalization of glycaemia.
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PMID:Superoxide dismutase, catalase and glutathione peroxidase activities in the lymphoid organs of diabetic rats. 796 75

Insulin-dependent diabetes (IDD) in the nonobese diabetic (NOD) mouse is believed to result from the specific autoimmune destruction of pancreatic beta cells. The frequency of diabetes in the NOD mouse is sex-dependent, with approximately 90% of females and 40% of males developing clinical diabetes by 40 weeks of age. Recently, attention has focused on determining possible mechanisms for beta cell destruction. One potential mechanism is the toxic effect of free oxygen radicals produced as a result of the influx of inflammatory cells into the pancreas. A deficiency in available antioxidant enzymes could form a basis for diabetes susceptibility. To test the feasibility of this idea, we have compared the activities of superoxide dismutase, catalase, glutathione peroxidase, and glutathione reductase in isolated islets, pancreas, and other tissues of age- and sex-matched NOD, BALB/c, C57BL/10, and B10.GD mice. Enzyme profiles revealed that female NOD mice do not differ significantly in antioxidant enzyme activity from females of the other inbred strains. However, antioxidant enzyme activity in females was generally lower than in males regardless of mouse strain. While isolated islet cells exhibited somewhat lower levels of enzyme activity than other tissues, the islets of NOD mice proved to be no more deficient than those of BALB/c mice. Therefore, it is unlikely that any toxic effect of free oxygen radicals on the beta cells of NOD mice results directly or solely from an antioxidant enzyme deficiency. Nevertheless, one possible explanation for the lower incidence of diabetes in NOD males versus females may be the inherently higher male antioxidant enzyme activities.
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PMID:Antioxidant enzyme activities in IDD-prone and IDD-resistant mice: a comparative study. 846 25


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