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)

Studies have implicated active oxygen species (AOS) in the pathogenesis of various lung diseases. Many chemical and physical agents in the environment are potent generators of AOS, including ozone, hyperoxia, mineral dusts, paraquat, etc. These agents produce AOS by different mechanisms, but frequently the lung is the primary target of toxicity, and exposure results in damage to lung tissue to varying degrees. The lung has developed defenses to AOS-mediated damage, which include antioxidant enzymes, the superoxide dismutases [copper-zinc (CuZnSOD) and manganese-containing (MnSOD)], catalase, and glutathione peroxidase (GPX). In this review, antioxidant defenses to environmental stresses in the lung as well as in isolated pulmonary cells following exposure to a number of different oxidants, are summarized. Each oxidant appears to induce a different pattern of antioxidant enzyme response in the lung, although some common trends, i.e., induction of MnSOD following oxidants inducing inflammation or pulmonary fibrosis, in responses to oxidants occur. Responses may vary between the different cell types in the lung as a function of cell-cycle or other factors. Increases in MnSOD mRNA or immunoreactive protein in response to certain oxidants may serve as a biomarker of AOS-mediated damage in the lung.
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PMID:Regulation of antioxidant enzymes in lung after oxidant injury. 752 4

A superoxide dismutase derivative (SM-SOD) that circulates and is bound to albumin with a half-life of 6 h was injected intraperitoneally into rats before exhaustive treadmill running to study its antioxidant scavenging capacity in the plasma and soleus and tibialis muscles. The exercise induced a marked increase in xanthine oxidase activity in plasma and an increase in thiobarbituric acid-reactive substances in the plasma as well as in the soleus and tibialis muscles of nonadministered rats immediately after the exercise. The immunoreactive content and activity of both SOD isoenzymes (Cu,Zn-SOD and Mn-SOD) of the nonadministered rats increased in the soleus and tibialis muscles immediately after running. SM-SOD treatment definitely attenuated the degree of the increase in thiobarbituric acid-reactive substances and xanthine oxidase in all samples examined immediately after exercise. Glutathione peroxidase activity significantly increased in the soleus muscle of nonadministered rats 1 day after running, whereas catalase activity remained unchanged throughout the experimental period. These results suggest that a single bout of exhaustive exercise induces oxidative stress in skeletal muscle of rats and that this oxidative stress can be attenuated by exogenous SM-SOD.
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PMID:Superoxide dismutase derivative reduces oxidative damage in skeletal muscle of rats during exhaustive exercise. 755 9

During radiotherapy of thoracic tumors, the heart is often included in the primary treatment volume, and chronic impairment of myocardial function occurs. The cellular biomolecules are altered directly by radiation or damaged indirectly by free radical production. The purpose of this investigation was to evaluate the biochemical and functional responses of the rat heart to a single high dose of radiation. The effect of 20 Gy local X irradiation was determined in the heart of Wistar rats under general anesthesia. Mechanical performances were measured in vitro using an isolated perfused working heart model, and cardiac antioxidant defenses were also evaluated. Hearts were studied at 1 and 4 months after irradiation. This single dose of radiation induced a marked drop in the mechanical activity of the rat heart: aortic output was significantly reduced (18% less than control values) at 1 month postirradiation and remained depressed for the rest of the experimental period (21% less than control 4 months after treatment). This suggests the development of myocardial failure after irradiation. The decline of functional parameters was associated with changes in antioxidant defenses. The decrease in cardiac levels of vitamin E (-30%) was associated with an increase in the levels of Mn-SOD and glutathione peroxidase (+45.5% and +32%, respectively, at 4 months postirradiation). However, cardiac vitamin C and catalase levels remained constant. Since these antioxidant defenses were activated relatively long after irradiation, it is suggested that this was probably due to the production of free radical species associated with the development of inflammation.
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PMID:Effect of in vivo heart irradiation on the development of antioxidant defenses and cardiac functions in the rat. 756 73

Preimplantation embryos from a variety of mammalian species contrast markedly in their response to culture in vitro. Murine preimplantation embryos display a wider tolerance than other mammalian species to culture environments, and this has contributed to the development of several effective defined culture media. Embryo coculture on somatic cells remains the most effective method of supporting reasonable rates of bovine preimplantation development in vitro. The patterns of gene expression for several antioxidant enzymes during preimplantation murine and bovine development were examined by use of the reverse transcription-polymerase chain reaction technique to determine whether the differential developmental capacity of mammalian preimplantation embryos in culture may reflect variations in the patterns of expression for a series of antioxidant enzymes. Transcripts for catalase, CuZn-containing superoxide dismutase (CuZn-SOD), Mn-SOD, glutathione peroxidase (GPX), and glutamylcysteine synthetase (GCS) were detected in mouse embryos at all stages of development regardless of in vivo or in vitro development. Preimplantation cow embryos produced by in vitro procedures expressed mRNAs for catalase, CuZn-SOD and GPX, whereas transcripts for Mn-SOD were not detected at any stage. GCS transcripts, although present in stages up to the morula, were not detected in cow blastocysts. Analysis of antioxidant gene expression in both bovine primary oviductal cell monolayer cultures and nonattached, ciliated oviductal cell vesicle cultures revealed a constitutive pattern of expression of all five enzymes for the 8-day culture interval. These experiments suggest that differences in gene expression may contribute to the variation in the ability of embryos to develop in vitro with respect to levels of oxygen and dependence on coculture.
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PMID:Expression of genes encoding antioxidant enzymes in preimplantation mouse and cow embryos and primary bovine oviduct cultures employed for embryo coculture. 757 76

An H2O2-resistant variant (OC14) of the HA1 Chinese hamster fibroblast cell line, which demonstrates cross resistance to 95% O2 and a 2-fold increase in total glutathione content, was utilized to investigate mechanisms responsible for cellular resistance to H2O2- and O2-toxicity. OC14 and HA1 cells were pretreated with buthionine sulfoximine (BSO) to deplete total cellular glutathione. Following BSO pretreatment, cells were either placed in 250 microM BSO to maintain the glutathione depleted condition and challenged with 95% O2, or challenged with hydrogen peroxide in the absence of BSO. Total glutathione and the activities of CuZn superoxide dismutase, Mn superoxide dismutase, catalase, glutathione peroxidase, and glutathione transferase were evaluated immediately following the BSO pretreatment as well as following 39 to 42 hr of exposure to 250 microM BSO. BSO treatment did not cause significant decreases in any cellular antioxidant tested, except total glutathione. Glutathione depletion resulted in significant (P < 0.05) sensitization to O2-toxicity and H2O2-toxicity in both cell lines at every time point tested. However, glutathione depletion did not completely abolish the resistance to either O2- or H2O2-toxicity demonstrated by OC14 cells, relative to HA1 cells. Also, glutathione depletion did not effect the ability of OC14 cells to metabolize extracellular H2O2. These data indicate that glutathione dependent processes significantly contribute to cellular resistance to acute H2O2- and O2-toxicity, but are not the only determinants of resistance in cell lines. The contribution of aldehydes formed by lipid peroxidation in mechanisms involved with the sensitization to O2-toxicity in glutathione depleted cells was tested by measuring the lipid peroxidation byproduct, 4-hydroxy-2-nonenal (4HNE), bound in Schiff-base linkages or in its free form in cell homogenates at 49 hr of 95% O2-exposure. No significant increase in 4HNE was detected in glutathione depleted cells relative to glutathione competent cells, indicating that glutathione depletion does not sensitize these cells to O2-toxicity by altering the intracellular accumulation of free or Schiff-base bound 4HNE.
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PMID:Contribution of increased glutathione content to mechanisms of oxidative stress resistance in hydrogen peroxide resistant hamster fibroblasts. 759 39

Premature rabbits, unlike full-term rabbits, are unable to mount a protective increase in pulmonary antioxidant enzyme (AOE) activities in response to 48 h of hyperoxic exposure and demonstrate increased pulmonary O2 toxicity compared with full-term rabbits. To examine AOE gene expression of CuZn superoxide dismutase (SOD), Mn SOD, catalase, and glutathione peroxidase in preterm versus term rabbits in response to hyperoxia, 29.5 d preterm rabbits (delivered by hysterotomy) and term rabbits (spontaneously vaginally delivered) were exposed to 48 h of > 90% O2 or room air. Preterm rabbits had a significant increase in CuZn SOD mRNA without corresponding AOE activity increases, suggesting translational/posttranslational inhibition. In full-term rabbits, the magnitude of lung AOE mRNA changes was associated with concordant magnitude changes in activities of CuZn SOD, Mn SOD, and catalase, suggesting pretranslational regulation of AOE gene expression; glutathione peroxidase, however, appears to be regulated translationally/posttranslationally. To investigate potential pharmacologic means of overcoming the susceptibility of the preterm rabbit to O2 toxicity, 29.5 d preterm rabbits received 20-40 micrograms/kg of Salmonella typhimurium endotoxin or diluent S.C. (after birth and at 24 h); in separate experiments, pregnant rabbits received intramuscular injections of dexamethasone (0.01-0.05 mg/kg) or saline on gestational d 27.5 and 28.5 and underwent hysterotomy at 29.5 d.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Failure of premature rabbits to increase lung antioxidant enzyme activities after hyperoxic exposure: antioxidant enzyme gene expression and pharmacologic intervention with endotoxin and dexamethasone. 759 87

In this work comprehensive data of antioxidant enzymes are reviewed and their role in carcinogenesis is discussed. When compared to their normal tissue counterparts, more of the tumor tissues were low in Cu, Zn-SOD and catalase activity and in some cases in Mn-SOD. It is probably characteristic for tumor tissues. Glutathione peroxidase, and glutathione reductase and glucose-6-phosphate dehydrogenase activities are highly variable. The reason why cancerous cells exhibit abnormal levels and activities of antioxidant enzymes is unknown. It was hypothesized, that during formation of the tumor, by certain obscure mechanism, cells with imbalance of antioxidant enzymes profile were selected over normal cells. It is not known whether the changes in antioxidant defence observed in cancerous tissues play a role in carcinogenesis, or are formed as a results of the disease.
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PMID:[Activity of antioxidant enzymes in cancer diseases]. 763 95

Although the mechanisms responsible for chemically induced oxidative stress are under intense investigation, little is known about the effects of prooxidant chemicals on the expression of drug-metabolizing enzymes. We examined the effects of diquat (0.1 mmol/kg, ip) and ciprofibrate (0.025% w/w, diet), chemicals which induce oxidative stress via different biochemical mechanisms, on the steady-state messenger RNA (mRNA) levels of six cytochrome P450 enzymes, seven glutathione S-transferase (GST) isoenzymes, UDP-glucuronosyl transferase 1-06 (UGT1*06), gamma-glutamylcysteine synthetase (gamma GCS), NADP(H):quinone oxidoreductase (quinone reductase), Cu/Zn superoxide dismutase (SOD), catalase, and 18S ribosomal RNA in the livers of male Sprague-Dawley rats. Effects of chemical treatments on mRNA levels were compared to changes in catalytic activities for selected enzymes. Ciprofibrate treatment selectively decreased CYP1A2 mRNA expression, whereas both chemicals suppressed CYP3A2 mRNA expression. CYP4A1 mRNA expression and lauric acid hydroxylase activities were induced by ciprofibrate treatment, whereas diquat treatment moderately increased CYP4A1 mRNA levels without affecting lauric acid hydroxylase activities. The steady-state mRNA levels encoding constitutively expressed GST isozymes (Ya1, Ya2, Yb1, Yb2, and Yc1) were decreased by diquat exposure, and the mRNA encoding four of the five constitutively expressed GSTs (Ya1, Ya2, Yb1, and Yc1) were also decreased by ciprofibrate treatment. Nonconstitutively expressed or low constitutively expressed genes (CYP1A1, CYP2B1, CYP2B2, GST Yc2, GST Yf, and UGT1*06) were not induced by exposure to the prooxidants. Changes in isozyme-specific catalytic activities were more consistent with the observed changes in mRNA expression for the GSTs than for the P450s. Both treatments had inhibitory effects on hepatic GSH biosynthesis by decreasing gamma GCS large-subunit mRNA expression, gamma GCS catalytic activities, and hepatic GSH concentrations. Cu/Zn SOD and quinone reductase mRNA levels were increased after ciprofibrate exposure, whereas Cu/Zn SOD mRNA expression was decreased in the diquat-treated animals. The results of this study indicate that diquat and ciprofibrate can decrease the expression profile of a number of phase I, phase II, and antioxidant enzymes and inhibit GSH biosynthesis. These effects may involve the pretranslational loss of hepatic mRNAs, possibly due to accelerated production of reactive oxygen species.
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PMID:The effects of diquat and ciprofibrate on mRNA expression and catalytic activities of hepatic xenobiotic metabolizing and antioxidant enzymes in rat liver. 767 60

Familial amyotrophic lateral sclerosis (FALS) is an autosomal dominant, adult onset, neurological disorder caused by the degeneration of motor neurons of the cortex, brainstem and spinal cord. Recently, the defective gene in some FALS families was identified as the Cu/Zn superoxide dismutase (SOD1) gene. However, SOD1 mutations are present in approximately 20% of patients with FALS. We have tested the genes of two more free radical detoxifying enzymes, Mn superoxide dismutase (SOD2) and catalase by single strand conformation analysis (SSCA) for mutations in the remaining FALS cases. No mutations were found in the catalase enzyme in 73 unrelated FALS cases; mutations were not detected in the 66% of the SOD2 gene analyzed. FALS does not appear to be caused by mutations in the SOD2 nor the catalase genes.
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PMID:Absence of mutations in the Mn superoxide dismutase or catalase genes in familial amyotrophic lateral sclerosis. 771 45

We report a transient adaptation to the oxidative stress of hydrogen peroxide (H2O2) exposure in several mammalian cell lines: Chinese hamster ovary fibroblast (CHO) cells, HA-1 cells (a defined CHO subclone), C3H 10T1/2 cells (embryonic mouse fibroblasts), V79 cells (Chinese hamster lung fibroblasts), and Clone 9 liver cells (rat liver epithelial cells). Up to 40-fold adaptive increases in resistance to H2O2 challenge occurred following pretreatment with relatively low H2O2 "priming" doses, from as little as 1.9% cell viability for untreated cells to as much as 76.5% viability for H2O2 pretreated cells. Detailed studies with HA-1 cells revealed the following pattern of responses to H2O2: very low H2O2 concentrations of 0.1 to 0.5 mumol/10(7) cells (3 to 15 microM) stimulated cell growth by 25 to 45%; low H2O2 concentrations of 2-5 mumol/10(7) cells (120 to 150 microM) induced a temporary growth-arrest, a lengthening of cell cycle from 18 h to approximately 26 h, and marked adaptive increases in H2O2 resistance; intermediate H2O2 concentrations of 9 to 14 mumol/10(7) cells (250 to 400 microM) caused permanent growth-arrest (i.e., permanent loss of replicative or divisional competence) with no evidence of necrosis; high H2O2 concentrations of 30 mumol/10(7) cells or greater (> or = 1 mM) caused an apoptotic-like necrotic cell death and destruction. The adaptive response to low H2O2 concentrations of 2-5 mumol/10(7) (120 to 150 microM) was maximal 18 h after pretreatment of HA-1 cells, declined thereafter toward baseline sensitivity, and was observed with both 7-day fix and stain procedures and clonogenic viability assays. Transient adaptation following H2O2 pretreatment of 4.15 mumol/10(7) (150 microM) involved the de novo synthesis of at least 20 proteins and was blocked by the translation inhibitor, cycloheximide. During the 18-h adaptation in HA-1 cells proteins were synthesized in three phases; early (0-4 h), middle (4-8 h), and late (8-15 h). No H2O2 response proteins were synthesized beyond 18 h after pretreatment, by which time adaptation had already maximized. Selective translational inhibition of the early, middle, or late proteins revealed that all three sets were necessary for a maximal adaptive increase in H2O2 resistance. Northern blot and enzyme activity analyses revealed no significant increases in transcription or translation of the classical antioxidant enzymes catalase, glutathione peroxidase, phospholipid hydroperoxide glutathione peroxidase, Cu, Zn superoxide dismutase, or Mn superoxide dismutase in H2O2-adapted HA-1 cells.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Transient adaptation of oxidative stress in mammalian cells. 772 66


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