UNIPROT:P04179 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P04179 (MnSOD)
2,777 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Spatial learning ability was quantitated in young and aged Long-Evans rats, and molecular markers were assessed in the striatum and hippocampal formation using immunocytochemical, immunoblotting, and in situ hybridization histochemical procedures. The mRNA for beta-amyloid precursor protein (beta APP), most likely the transcript encoding the 695-amino acid form of this protein, was elevated in pyramidal and granule cells in the hippocampus of aged rats exhibiting poorer spatial learning. In immunoblots of hippocampal protein extracts, however, the level of beta APP-like immunoreactivity was depressed in the more impaired subjects. Similarly, the level in hippocampus of the mRNA for manganese-dependent superoxide dismutase (Mn-SOD), a marker of oxidative stress, was positively correlated with the degree of behavioral impairment, but immunoblotting revealed that Mn-SOD protein was depressed in the aged hippocampus compared with young. The mRNAs for the neuronal form of nitric oxide synthase and for the astrocyte marker glial fibrillary acidic protein (GFAP) were elevated in the hippocampus in correlation with the extent of learning impairment. In the striatum, the levels of mRNA and protein for several candidate genes, including GFAP, were elevated in parallel with the learning index, but these were age effects. Several hippocampal proteins were unchanged (GFAP) or depressed (beta APP and Mn-SOD) in level, despite elevations in corresponding mRNAs. In the aged cohort, hippocampal GFAP mRNA, Mn-SOD mRNA, and beta APP emerged as predictors of behavioral impairment, suggesting the involvement of these hippocampal systems in age-related cognitive impairment.
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PMID:Molecular indices of neuronal and glial plasticity in the hippocampal formation in a rodent model of age-induced spatial learning impairment. 862 77

Cu/Zn-superoxide dismutase (Cu/Zn-SOD) has been shown to modulate the autoxidation of a variety of phenoic compounds, including 1,4-hydroquinone (HQ), a benzene-derived metabolite. The acceleration of autoxidation of HQ by Cu/Zn-SOD results in the production of 1,4-benzoquinone (BQ). It has been proposed that the chemical mechanism involved in the Cu/Zn-SOD-catalyzed autoxidation of HQ may be occur through either its conventional activity as a superoxide:superoxide oxidoreductase or as a semiquinone:superoxide oxidoreductase. However, Cu/Zn-SOD-accelerated oxidation of HQ has not been resolved experimentally. In this study, with ESR spectroscopy we investigated further the chemical reactions involved in the SOD-accelerated oxidation of HQ. In phosphate-buffered saline (PSB), HQ underwent a slow autoxidation to BQ, which was accelerated by Cu/Zn-SOD, Mn-SOD, or Fe-SOD with similar efficiency. In contrast, among free metals, only Cu(II) strongly mediated the oxidation of HQ to BQ. Mn(II) exhibited a slight capacity to oxidize HQ, whereas neither FE(II) nor FE(III) was capable of modulating the autoxidation of HG. The presence of either form of SOD also dramatically enhanced the formation of semiquinone anion radicals SQ-. from HQ. The SOD-accelerated oxidation of HQ was also accompanied by the generation of H202. In PBS containing bovine serum albumin (BSA) (PBS/BSA), HQ did not undergo autoxidation to SQ-., and as such the presence of SOD was unable to induce the formation of either SQ-. or BQ or the consumption of O2. The addition of 10 microM BQ to HQ (100 or 1000 microM) in PBS/BSA resulted in the formation of SQ-. and initiated a slow rate of oxidation of HQ to BQ. In this case, the presence of Cu/Zn-SOD strongly accelerated the oxidation of HQ to SQ-. and BQ and the utilization of O2. Furthermore, the enhancement by Cu/Zn-SOD of the generation of SQ-. or BQ from HQ in PBS/BSA was extensively inhibited under anaerobic conditions. The enhancement of SQ-. generation from HQ by all three forms of SOD does not support the possibility that Cu/Zn-SOD can oxidize SQ-. to BQ. Taken together, this study demonstrates that unlike free copper, Cu/Zn-SOD does not directly interact with HQ to cause its oxidation to BQ. Rather, the autoxidation of HQ to SQ-. is a prerequisite for the enhancing capacity of Cu/Zn-SOD, and the dismutation of superoxide anion radicals generated from the SQ-. in the presence of O2 appears to be the underlying mechanism responsible for the enhancement by Cu/Zn-SOD of the oxidation of HQ.
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PMID:Role of Cu/Zn-superoxide dismutase in xenobiotic activation. I. Chemical reactions involved in the Cu/Zn-superoxide dismutase-accelerated oxidation of the benzene metabolite 1,4-hydroquinone. 864 79

4-Vinylcyclohexene diepoxide (VCD) destroys small preantral (25-100 microns) ovarian follicles after repeated dosing in mice and rats. A previous study determined this follicular destruction is via apoptosis (physiological cell death). The purposes of this study were to examine the effects of VCD on amounts of mRNA for several genes that might be involved in this ovotoxic response and to determine the specificity of this response for small preantral follicles. The genes of interest were bax, a cell death gene; three forms of the antioxidant enzyme, superoxide dismutase (mitochondrial manganese-containing or MnSOD, cytosolic copper/zinc-containing or Cu/ZnSOD, and secreted or secSOD); and microsomal epoxide hydrolase (mEH), involved in detoxification of VCD. Female Fischer 344 rats were administered daily doses (10 days) of vehicle control (sesame oil) or VCD (80 mg/kg, ip). Four hours after the last injection, livers and ovaries were removed. Small (25-100 microns) and large (100-250 microns) preantral follicles were separated from the ovaries by gentle dissociation and collected by mouth pipeting. Total RNA was extracted from all tissues, reverse transcribed into first-strand cDNA, and amplified by polymerase chain reaction using oligonucleotide primers specific for each gene. Relative levels of mRNA were visualized by agarose gel electrophoresis and autoradiography and quantified by densitometric analysis. Coamplification of ribosomal protein L19 (constitutively expressed in ovarian tissue) was used for normalization in each sample. Increased levels of mRNA for bax (172 +/- 20% of control, p < 0.05), MnSOD (248 +/- 70% of control, p < 0.05), and mEH (352 +/- 120% of control, p < 0.05) were measured in 25- to 100-microns follicles collected from VCD-treated compared with control rats. Unlike 25- to 100-microns follicles (the targets of ovotoxicity), in 100- to 250-microns follicles (nontargets) there were no changes (p > 0.05) in mRNA levels for bax or MnSOD in VCD-treated rats; however, mRNA levels for mEH were significantly decreased (79 +/- 4% of control, p < 0.05), compared with control. No changes in levels of mRNA for mEH were observed in liver from VCD-treated rats relative to control. Additionally, in liver VCD caused a significant decrease in mRNA levels for bax (31 +/- 5% of control, p < 0.05) and Cu-ZnSOD (56 +/- 17% of control, p < 0.05). In summary, dosing of rats with VCD enhanced expression of mRNA encoding several genes that might respond during the induction of ovotoxicity. The selective increase in bax in the population of follicles destroyed by repeated dosing with VCD may reflect their susceptibility to apoptosis.
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PMID:Enhanced expression of bax in small preantral follicles during 4-vinylcyclohexene diepoxide-induced ovotoxicity in the rat. 880 58

The pathogenesis of diabetic corneal epitheliopathy, one of the ocular complications frequently seen in diabetes patients, still remains to be elucidated. Hyperglycemia causes glycation of various proteins leading to the formation of superoxide radicals (O2.-). Copper, zinc-superoxide dismutase (Cu, Zn-SOD), a scavenger of superoxide radicals, whose function is complementary to manganese-SOD (Mn-SOD), is inactivated during glycation. As a first step to clarify whether depressed antioxidant activity is associated with diabetic corneal epitheliopathy or not, we investigated the expression of Mn-SOD mRNA (messenger ribonuclic acid) in streptozotocin-induced diabetic rat cornea by in situ hybridization using a digoxigenin-labeled Mn-SOD cDNA probe. Mn-SOD mRNA was detected in epithelial cell layer and endothelial cell layer of both diabetic rat cornea and normal rat cornea. However, the expression of Mn-SOD mMRA in the epithelial cell layer of diabetic rat cornea was weaker than that of normal rat cornea. These results suggest that decreased Mn-SOD activity might be one of factors causing diabetic corneal epitheliopathy.
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PMID:[Expression of Mn-SOD mRNA in streptozotocin-induced diabetic rat cornea by in situ hybridization]. 881 Feb 35

Copper/zinc (Cu/ZnSOD) and manganese (MnSOD) superoxide dismutases which catalyze the dismutation of toxic superoxide anion, O(2-)-, to O2 and H2O2, play a major role in protecting cells from toxicity of oxidative stress. However, cells overexpressing either form of the enzyme show signs of toxicity, suggesting that too much SOD may be injurious to the cell. To elucidate the possible mechanism of this cytotoxicity, the effect of SOD on DNA and RNA strand scission was studied. High purity preparations of Cu/ZnSOD and MnSOD were tested in an in vitro assay in which DNA cleavage was measured by conversion of phage phi X174 supercoiled double-stranded DNA to open circular and linear forms. Both types of SOD were able to induce DNA strand scission generating single- and double-strand breaks in a process that required oxygen and the presence of fully active enzyme. The DNA strand scission could be prevented by specific anti-SOD antibodies added directly or used for immunodepletion of SOD. Requirement for oxygen and the effect of Fe(II) and Fe(III) ions suggest that cleavage of DNA may be in part mediated by hydroxyl radicals formed in Fenton-type reactions where enzyme-bound transition metals serve as a catalyst by first being reduced by superoxide and then oxidized by H2O2. Another mechanism was probably operative in this system, since in the presence of magnesium DNA cleavage by SOD was oxygen independent and not affected by sodium cyanide. It is postulated that SOD, by having a similar structure to the active center of zinc-containing nucleases, is capable of exhibiting non-specific nuclease activity causing hydrolysis of the phosphodiester bonds of DNA and RNA. Both types of SOD were shown to effectively cleave RNA. These findings may help explain the origin of pathology of certain hereditary diseases genetically linked to Cu/ZnSOD gene.
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PMID:DNA and RNA strand scission by copper, zinc and manganese superoxide dismutases. 883 54

Subversion of mitochondrial electron transport to the production of O2.- has been proposed as a mechanism of tumor necrosis factor (TNF)-mediated cell killing and to a lesser extent interleukin-1 (IL-1) and lipopolysaccharide (LPS) cytotoxicity. We utilized the O2.- -sensitive aconitases to measure changes in steady-state 02.- levels in the mitochondrial matrix and cytoplasm of cultured mammalian cells in response to these inflammatory mediators. TNF alpha did not measurably affect aconitase activity, and thus mitochondrial 02.- production, in either cultured human A549 cells or murine L929 cells while TNF alpha clearly caused cytotoxicity as revealed by impaired mitochondrial respiration. IL-1 alpha and Escherichia coli LPS also failed to affect the aconitase activity in A549 cells. Neither the O2.- scavenger Mn(III) TMPyP nor the H2O2 scavenger catalase protected L929 cells against the cytotoxicity of TNF alpha. In conclusion, TNF, IL-1, and LPS do not appear to exert cytotoxicity, or MnSOD gene induction effects, by eliciting mitochondrial O2.- production.
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PMID:Failure of tumor necrosis factor and interleukin-1 to elicit superoxide production in the mitochondrial matrices of mammalian cells. 883 51

Alcohol damage to the liver can, among other factors, be mediated through the action of toxic oxygen radicals generated by ethanol. Major antioxidants in the liver are copper/zinc and manganese superoxide dismutases (Cu/Zn- and Mn-SODs). In order to test whether SODs may be differentially expressed in alcoholic liver disease (ALD), biopsies from 45 patients with ALD were analyzed for qualitative and quantitative immunoreactivity of Cu/Zn- and Mn-SOD in hepatocytes. The overall amount of Cu/Zn-SOD reactivity was significantly lower in ALD than in control biopsies, whereas no difference was found for Mn-SOD. Staining for both enzymes was decreased in ballooned hepatocytes. Low Cu/Zn-SOD was correlated with advanced lattice-like perisinusoidal fibrosis. In hepatocytes forming cirrhotic nodules, SOD reactivity was similar to that of control cells. The results suggest that SODs may be differentially regulated in ALD, and that Mn-SOD, an inducible enzyme, may be involved in recovery and cell protection in ALD.
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PMID:Copper/zinc and manganese superoxide dismutases in alcoholic liver disease: immunohistochemical quantitation. 893 Jun 33

The superoxide-dismutase (SOD) enzyme, isolated from the halophilic halotolerant bacterium Ba1, was found to be a dimer with a molecular weight of 40 kD and a subunit weight of 23.5 kD. The partial N-terminal sequence showed significant homology to SODs isolated from various sources. Metal analysis showed that SOD from Ba1 contains manganese and iron with the following stoichiometries: 0.9 +/- 0.4 Mn/dimer and 0.6 +/- 0.2 Fe/dimer. Two bands were obtained by isoelectric-focusing, at pI of 4.45 and at 4.40. Native SOD from Ba1 at room temperature was ESR silent. An ESR spectrum of hydrated Mn(II) was obtained from denaturated enzyme. Native enzyme cooled to 97 K showed an ESR spectrum identified as being due to Fe(III). The spectrum was pH-independent. SOD from Ba1 was not inactivated by H2O2. On the basis of these observations, SOD from Ba1 was characterized as MnSOD. The excitation fluorescence spectrum of SOD from Ba1 showed four main peaks in the visible region. The effects on the spectra of KSCN, NaN3, NaF, and ascorbate were examined. Measurements of H2(17)O-nmr relaxation times T1 and T2, for solutions containing E. coli MnSOD and FeSOD, showed no paramagnetic contribution. These results support the assumption that the water molecule at the active site is strongly bound.
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PMID:Mn-superoxide dismutase from the halophilic halotolerant bacterium Ba1--isolation and active site spectroscopic studies. 898 69

Manganese containing superoxide dismutase from E. coli has been investigated through paramagnetic NMR spectroscopy. The spectrum of the native form was rationalized using a tau(s) = 3x10(-11) s for the Mn(III) ion, consistent with previous estimates from NMRD measurements. Mn(III) has been replaced by a Co(II) ion and a tentative assignment of the NMR spectrum of the Co(II)-substituted derivative has been proposed, based on T1, chemical shifts and 1D-NOE data. The metal coordination geometry is provided by three histidines and a carboxylate group. The presence of a solvent molecule as a loosely bound fifth ligand is also proposed. The NMR data of the Co(II)-substituted derivative of E. coli MnSOD differs from those of Co(II)SOD from other bacterial sources. This suggests that Co(II) substitution is an efficient method to address the problem of metal ion selectivity in superoxide dismutase.
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PMID:Paramagnetic NMR spectroscopy of native and cobalt substituted manganese superoxide dismutase from Escherichia coli. 900 97

Neutrophil apoptosis is an important mechanism that has implications for understanding the life span and toxic potentials of neutrophils at inflamed sights. In this study the authors examined the possibility that reactive oxygen species (ROS) released by neutrophils can regulate neutrophil survival. Cu,Zn-superoxide dismutase (Cu,Zn-SOD), Mn-SOD, and catalase in culture media were significantly effective in delaying the spontaneous apoptosis, suggesting that ROS play an important role in the resolution of inflammation by inducing neutrophil apoptosis. In this experiment, boiled Cu,Zn-SOD had no effect on inhibiting the apoptosis, but boiled Mn-SOD from Bacillus stearothermophilus was more effective in inhibiting the apoptosis than untreated Mn-SOD at the same dose. However, the boiled Mn-SOD showed only 80% of O2- inhibitable activity compared with the untreated Mn-SOD. This effect may be attributed to the partial liberation of manganese because MnCl2 inhibited the apoptosis effectively. Furthermore, Cu,Zn-SOD was effective in delaying apoptosis only when added to the culture within the first 3 h of incubation, suggesting that the isolation of neutrophils from peripheral blood enhances apoptosis of neutrophils.
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PMID:Inhibition of neutrophil apoptosis by antioxidants in culture medium. 901 Apr 96

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