UNIPROT:P04179 - FACTA Search

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Query: UNIPROT:P04179 (MnSOD)
2,777 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Two forms of superoxide dismutase, CuZn-SOD and MnSOD, have been investigated in the kidneys of streptozotocin-induced diabetic rats using both radio-immunoassay and immunoenzyme staining. The rats were killed 2, 8 and 12 weeks after the induction of diabetes mellitus and the kidneys excised. Two weeks after the induction of diabetes, the kidneys were hypertrophied because of the proliferation of renal tubular epithelium. However, the total CuZnSOD content of the kidneys did not increase and, because of the epithelial proliferation, the CuZnSOD concentration in each proximal tubular cell was decreased. Armanni-Ebstein lesions were found in the distal tubules 8 and 12 weeks after the induction of diabetes. The cells in these lesions were intensely stained for CuZnSOD, suggesting an adaptive response to the enhanced oxidative stress. The MnSOD staining in the thick ascending limbs of Henle's loops was enhanced in the diabetic kidneys, while that in the cortical tubules was unaltered. MnSOD was assumed to increase in response to hypermetabolism associated with the proliferation of renal tubules. This was most marked in the cells which were rich in mitochondria, again suggesting an adaptive response to enhanced oxidative stress induced by diabetes mellitus. The glomeruli of both the diabetic and control groups were not stained for SODs, and no significant microscopic change was found even 12 weeks after the induction of diabetes mellitus.
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PMID:Effect of diabetes mellitus induced by streptozotocin on renal superoxide dismutases in the rat. A radioimmunoassay and immunohistochemical study. 167 79

Superoxide dismutases (SOD) and their changes in diabetes, aging, ischemia and cancer were studied, Cu, Zn-SOD undergoes glycation reaction in vitro and in vivo and loses its activity by formation of Amadori compounds. Two lysine residues of Cu, Zn-SOD, Lys-122 and Lys-128 are primary glycated sites which are located on the surface of the molecule. The sites are also located on the active site liganding loop which plays a major role in the activity. The glycated Cu, Zn-SOD increased in the red cells of diabetic patients, especially those with diabetic complications. Mn-SOD appears in the serum of patients with acute myocardial infarction in a biphasic manner. The enzyme appears in sera 16 hr and 108 hr after the attack as determined by ELISA. The Mn-SOD levels are also increased in the serum of patients with epithelial ovarian cancer and it is a good marker for detecting and monitoring this cancer. Mn-SOD may play an important role in the ischemic and cancer tissues.
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PMID:[Superoxide dismutases: significances in aging, diabetes, ischemia and cancer]. 223 47

CuZn superoxide dismutase, Mn superoxide dismutase, catalase and glutathione peroxidase activities in lymphocytes and erythrocytes were studied in 9 children with insulin-dependent diabetes mellitus (IDDM) as well as in 21 healthy children. The mean erythrocyte CuZn superoxide dismutase and glutathione peroxidase were statistically significantly lower in the IDDM group compared with the controls although almost all IDDM results fell within the mean +/- 2 SD limits of the controls. The small differences found can hardly be assigned biological significance. Erythrocyte catalase as well as lymphocyte CuZn superoxide dismutase and Mn superoxide dismutase did not differ from the controls.
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PMID:CuZn superoxide dismutase, Mn superoxide dismutase, catalase and glutathione peroxidase in lymphocytes and erythrocytes in insulin-dependent diabetic children. 633 71

Insulin stimulates the production of superoxide and hydrogen peroxide in various tissues. Hydrogen peroxide has been proposed to be an intracellular second messenger for insulin and a moderator of cellular proliferation and differentiation. We previously found that cell proliferation is increased in small intestinal mucosa of streptozotocin-diabetic rats. The current study was undertaken to determine if superoxide dismutase (SOD), the enzyme that converts superoxide to hydrogen peroxide, is altered in the mucosa of the alimentary tract and renal cortex of the diabetic rat, and if so, whether SOD responds to insulin treatment. Total SOD and cyanide-insensitive [manganese-containing SOD (Mn SOD)] SOD were measured by the nitroblue tetrazolium inhibition assay. We studied ad libitum fed animals, where diabetics are hyperphagic and pair-fed animals, where hyperphagia is not present. Since cyclic nucleotides appear to control cell proliferation in some tissues, we also measured cAMP and cGMP in mucosa of the small intestine. In ad libitum fed animals, total SOD was depressed in the mucosa of duodenum, jejunum, and ileum, but not in the cecum or colon of the streptozotocin-diabetic rats. The level of Mn-SOD was not affected by diabetes or insulin treatment, but the cyanide-sensitive [copper- and zinc containing SOD (Cu-Zn SOD] SOD was depressed in the small intestine and colon of diabetic rats. Insulin treatment restored total and Cu-Zn SOD activity in the small intestine to normal and increased Cu-Zn SOD activity in the colon to normal. Pair-fed animals showed the same changes in the SOD activity of jejunal mucosa that were found in ad libitum fed animals. In renal cortex, diabetes did not alter total SOD, but increased Mn SOD and decreased Cu-Zn SOD. Both responses were reversed by insulin treatment. Cyclic nucleotide concentrations were not affected by diabetes. We conclude that SOD enzymes re altered in diabetes, at least in proliferating tissues. Responses are tissue specific. The mucosa of the small intestine and colon show decreased Cu-Zn SOD, the SOD of the cecum is unaffected, and the kidney shows increased Mn SOD and decreased Cu-Zn SOD. The SOD responses of diabetics are reversed by insulin treatment.
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PMID:Superoxide dismutase activity in the intestine of the streptozotocin-diabetic rat. 704 72

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

The effect of sodium metavanadate (NaVO3) consumption on trace element metabolism, components of the antioxidant defense system and lipid oxidative damage were studied in control (CON) and streptozotocin-induced diabetic (DIAB) rats. Ten days after injection, CON and DIAB rats received either 0 mM NaVO3/80 mM NaCl (0 group) or 1.2 mM NaVO3/80 mM NaCl (1.2V group) in their drinking water. DIAB groups had higher food and fluid intakes than the CON groups; vanadium (V) groups had lower food and fluid intakes than the saline groups. Vanadium therapy lowered plasma glucose concentrations of DIAB rats. The following parameters were similar among the groups: plasma Zn, Cu and Fe concentrations, plasma ceruloplasmin activity, liver Zn, Cu, Mn and Fe concentrations, kidney Mn and Fe concentrations, liver non-Se-dependent glutathione peroxidase (GSH-Px), glutathione reductase (GSH-Red) and Mn-SOD activities, liver reduced glutathione (GSH) and oxidized glutathione (GSSG) concentrations and kidney non-Se-dependent GSH-Px activity. Kidney Zn and Cu concentrations were higher in DIAB rats than in CON rats. The CON-1.2V and DIAB-1.2V groups had V accumulation in the liver and kidney. Liver CuZn-SOD and Se-dependent GSH-Px and kidney CuZn-SOD and GSH-Red activities were lower in DIAB rats compared to CON rats; kidney Mn-SOD and kidney Se-dependent GSH-Px activities were higher in DIAB rats than CON rats. Vanadium treatment did not cause significant alterations in the antioxidant defense system; however, tissue vanadium concentrations were positively correlated to TBARS production. These results show that diabetes caused significant alterations in the antioxidant defense system and that V therapy was associated with a marked deterioration in health of both control and diabetic rats.
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PMID:Vanadium treatment of diabetic Sprague-Dawley rats results in tissue vanadium accumulation and pro-oxidant effects. 824 40

Reactive oxygen species such as superoxide anion (O2-), hydrogen peroxide (H2O2) and hydroxy radical (OH) possess potent oxygen toxicity to cells. Superoxide dismutases (SODs) are metalloenzymes that are essential for dismutation of O2- to H2O2 and O2. SODs are important initial components in the cellular defense against oxygen toxicity since O2- can react with H2O2 to generate single oxygen and hydroxy radicals, which are even more reactive and cytotoxic than O2- or H2O2. In mammalian tissues three superoxide dismutases (SODs) designated Cu,Zn-SOD, Mn-SOD and extracellular SOD exist. These enzymes play an important role in the antioxidant defense system against superoxide anion (O2-) generated in vivo and may be involved in various pathophysiological processes including inflammation, cancer diabetes, aging and ischemia. (1) The role of superoxide anion in ovulation and luteal function was investigated the localization of Cu, Zn-SOD and Mn-SOD in rat and human ovary by immunohistochemical methods. Cu,Zn-SOD was present in granulosa cells of mature Graafian follicles and growing follicles and Mn-SOD was present in luteal cells of the corpus luteum in rat. (2) To investigate the relationship between active oxygen radical-scavenge system and ovulatory mechanism in human. Mn-SOD was found in granulosa cells and theca cells of mature follicles, luteal cells of corpus luteum and epithelial cells of fallopian tubes. Cu,Zn-SOD was localized in theca cells of mature follicles, margin of corpus luteum and epithelial cells of tubal isthmus.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Oxygen radicals-superoxide dismutase system and reproduction medicine]. 837 Oct 13

The cytokine IL-1 beta has previously been demonstrated to induce the expression of the stress genes iNOS, hsp70, heme oxygenase and Mn-SOD in rat pancreatic islets in vitro. The aim of this study was to determine whether the IL-1 beta-induced effects are specific for the insulin producing beta-cell, or whether other islet cells, such as the glucagon-producing alpha-cell, respond to IL-1 beta addition. Purified rat alpha- and beta-cell suspensions were obtained by fluorescence-activated cell sorting and incubated with or without IL-1 beta (25 U/ml) for 24 h. The alpha- and beta-cell contents of hsp70, heme oxygenase and Mn-SOD and medium nitrite levels were determined. It was found that IL-1 beta exposure induced the production of nitric oxide in beta-cells, but not in alpha-cells. Moreover, the expression of hsp70, heme oxygenase and Mn-SOD was also induced in beta-cells, but not in alpha-cells. There were no detectable levels of hsp70 in alpha-cells. It is concluded that the stress gene response following IL-1 beta exposure is markedly different in alpha- and beta-cells. This finding may be of importance for the understanding of the autoimmune destruction of beta-cells in insulin-dependent diabetes mellitus.
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PMID:Interleukin-1 beta induces the expression of hsp70, heme oxygenase and Mn-SOD in FACS-purified rat islet beta-cells, but not in alpha-cells. 871 14

Maternal diabetes during pregnancy is associated with an increased rate of congenital malformations in the offspring. The exact molecular etiology of the disturbed embryogenesis is unknown, but an involvement of radical oxygen species in the teratological process has been suggested. Oxidative damage presupposes an imbalance between the activity of the free oxygen radicals and the antioxidant defence mechanisms on the cellular level. The aim of the present study was to investigate if maternal diabetes in vivo, or high glucose in vitro alters the expression of the free oxygen radical scavenging enzymes superoxide dismutase (CuZnSOD and MnSOD), catalase and glutathione peroxidase in rat embryos during late organogenesis. We studied offspring of normal and diabetic rats on gestational days 11 and 12, and also evaluated day-11 embryos after a 48 hour culture period in 10 mM or 50 mM glucose concentration. Both maternal diabetes and high glucose culture caused growth retardation and increased rate of congenital malformations in the embryos. The CuZnSOD and MnSOD enzymes were expressed on gestational day 11 and both CuZnSOD, MnSOD and catalase were expressed on day 12 with increased concentrations of MnSOD transcripts when challenged by a diabetic milieu. There was a good correlation between mRNA, protein, and activity levels, suggesting that the regulation of these enzymes occurs primarily at the pretranslational level. Maternal diabetes in vivo and high glucose concentration in vitro induced increased MnSOD expression, concomitant with increased total SOD activity, and a tentative decrease in catalase expression and activity in the embryos. These findings support the notion of enhanced oxidative stress in the embryo as an etiologic agent in diabetic teratogenesis.
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PMID:Altered levels of scavenging enzymes in embryos subjected to a diabetic environment. 880 88

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