Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P30044 (antioxidant enzyme)
 8,037 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Tamoxifen (TAM), a synthetic nonsteroidal antiestrogen effectively and widely used for breast cancer treatment, is known to have antioxidant and cardioprotective effects, but whether the beneficial cardiovascular effect of TAM is linked to its antioxidant effect is unknown. In this study, we investigated the effect of TAM on the levels of manganese superoxide dismutase (MnSOD), a mitochondrial antioxidant enzyme, in cardiac tissues and cardiomyocytes. TAM treatment induced MnSOD expression in vitro and in vivo. Cardiomyocytes isolated from TAM-pretreated mice also had higher MnSOD levels and fewer apoptotic cells compared to cardiomyocytes from control mice after adriamycin (ADR) treatment. To further confirm the role of MnSOD in the protection against ADR in cardiomyocytes, we used cardiomyocytes isolated from MnSOD knock-out (MnSOD(+/-)), wild-type (NTg) and human MnSOD transgenic (TgH) mice. TUNEL assay indicated that the percentage of cells undergoing apoptosis after ADR treatment was significantly greater in MnSOD(+/-) than in NTg or TgH cardiomyocytes. 3-[4, 5-Dimethylthiazol-2-yl]-2, 5-diphenyltetrazolium bromide (MTT) assay showed that basal level of mitochondrial function was lower in MnSOD(+/-) cardiomyocytes than in NTg or TgH, and that MnSOD(+/-) was more sensitive to ADR. ADR treatment increased caspase activity, which was significantly higher in MnSOD(+/-) than in NTg or TgH cardiomyocytes. These results suggested that TAM-induced MnSOD expression is at least, in part, contribute to the cardioprotective effects of TAM.
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PMID:Induction of manganese superoxide dismutase (MnSOD) mediates cardioprotective effect of tamoxifen (TAM). 1614 Mar 21

Non-small cell lung cancer frequently presents as a locally advanced disease. In this setting, radiation has a prominent role in cancer therapy. However, tumor adaptation to oxidative stress may lessen the efficacy of radiation therapy. Recent studies demonstrate that proteasome inhibitors increase the efficacy of radiation against a range of tumors. Although proteasome inhibition impacts on NF-kappaB translocation, the precise mechanism through which proteasome inhibitors induce tumor cell death and promote radiation efficacy remains unclear. The purpose of this study is to evaluate the potential of the proteasome inhibitor, MG-132, to improve the efficacy of radiation therapy and to determine whether its effect is linked to the suppression of the antioxidant enzyme, manganese superoxide dismutase (MnSOD). Human NSCLC (A549) cells were utilized both in vivo and in vitro to evaluate proteasome inhibition on radiation response. In vivo, mice that received combined treatments of 2.5 microg/g body weight MG-132 and 30 Gy demonstrated a delay in tumor regrowth in comparison to the 30 Gy control group. In vitro, clonegenic survival assays confirmed a dose-dependent enhancement of radiation sensitivity in combination with MG-132 and a significant interaction between the two. The levels of IkappaB-alpha, a NF-kappaB target gene and also an inhibitor of NF-kappaB nuclear translocation, decreased in a time-dependent manner following administration of MG-132 confirming the inhibition of the 26S proteasome. The MnSOD protein level was increased consistent with lower levels of IkappaB-alpha, confirming a NF-kappaB-mediated effect. Cells treated with radiation demonstrated an induction of MnSOD; however, the administration of MG-132 suppressed this induction These results support the hypothesis that proteasome inhibitors such as MG-132 can increase the efficacy of radiation therapy, in part, by suppression of cytoprotective NF-kappaB-mediated MnSOD expression.
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PMID:Proteasome inhibition improves fractionated radiation treatment against non-small cell lung cancer: an antioxidant connection. 1614 22

Hypoxia-inducible factor-1 (HIF-1) is a transcription factor that governs cellular responses to reduced O2 availability by mediating crucial homeostatic processes. HIF-1 is composed of an HIF-1alpha subunit and an HIF-1beta subunit. HIF-1alpha is degraded following enzyme-dependent hydroxylation of prolines of HIF-1alpha in the presence of molecular oxygen, Fe2+, alpha-ketoglutarate, and ascorbate. These cofactors contribute to the redox environment of cells. The antioxidant enzyme manganese superoxide dismutase (MnSOD) also modulates the cellular redox environment. Here we show that MnSOD suppressed hypoxic accumulation of HIF-1alpha protein in human breast carcinoma MCF-7 cells. This suppression was biphasic depending on MnSOD activity. At low levels of MnSOD activity, HIF-1alpha protein accumulated under hypoxic conditions. At moderate levels of MnSOD activity (two- to six-fold increase compared to parent cells), these accumulations were blocked. However, at higher levels of MnSOD activity (>6-fold increase), accumulation of HIF-1alpha protein was again observed. This biphasic modulation was observed under both 1 and 4% O2. Coexpression of mitochondrial hydrogen peroxide-removing proteins prevented the accumulation of HIF-1alpha protein in cells with high levels of MnSOD; this effect demonstrates that the restabilization of HIF-1alpha observed in high MnSOD overexpressors is probably due to hydrogen peroxide, most likely produced from MnSOD. Hypoxic induction of vascular endothelial growth factor (VEGF) protein was also suppressed by elevated MnSOD activity and its levels reflected HIF-1alpha protein levels. These observations demonstrated that HIF-1alpha accumulation and VEGF expression could be modulated by the antioxidant enzyme MnSOD.
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PMID:Manganese superoxide dismutase suppresses hypoxic induction of hypoxia-inducible factor-1alpha and vascular endothelial growth factor. 1617 Mar 70

Purpose of the study was to investigate the relationship between antioxidant enzyme expression and clinicopathological features in oligodendroglial tumors. The expression of antioxidant enzymes and related proteins (AOEs), manganese superoxide dismutase (MnSOD), thioredoxin (Trx), thioredoxin reductase (TrxR) and gammaglutamylcysteine synthetase catalytic and regulatory subunits (GLCL-C and GLCL-R), was studied in 85 oligodendroglial tumors. The material included 71 primary (43 grade II and 28 grade III) and 14 recurrent (6 grade II and 8 grade III) tumors. Fifty-seven cases were pure oligodendrogliomas and 28 were mixed oligoastrocytomas. Immunoreactivity for MnSOD was found in 89%, Trx in 29%, TrxR in 76%, GLCL-C in 70% and GLCL-R in 68% of cases. Increased Trx expression was associated with higher tumor grade, cell proliferation and apoptosis (P=0.006, P=0.001 and P=0.003, Mann-Whitney test). Pure oligodendrogliomas showed more intense staining than oligoastrocytomas, especially for MnSOD (P=0.002, Mann-Whitney test). In the total series Trx was associated with poor prognosis in univariate survival analysis (P=0.0343, log-rank test) and furthermore in Cox multivariate analysis (P=0.009) along with age (P=0.002). The results suggest that the expression of Trx has a correlation to patient outcome and that there may be some association between AOEs, like MnSOD and Trx, and clinicopathological features of oligodendrogliomas.
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PMID:Antioxidant enzymes in oligodendroglial brain tumors: association with proliferation, apoptotic activity and survival. 1629 83

The free radical scavenger WR1065 (SH) is the active thiol form of the clinically approved cytoprotector amifostine. At doses of 40 microM and 4 mM it can activate the redox-sensitive nuclear transcription factor kappaB (NFkappaB) and elevate the expression of the antioxidant gene manganese superoxide dismutase (MnSOD) in human microvascular endothelial cells (HMEC). MnSOD contains binding motifs for a number of transcription factors other than NFkappaB and codes for a potent antioxidant enzyme localized in the mitochondria that is known to confer enhanced radiation resistance to cells. The purpose of this study was to determine the effect of WR1065 exposure on the various transcription factors known to affect MnSOD expression along with the subsequent kinetics of intracellular elevation of MnSOD protein levels and associated change in sensitivity to ionizing radiation in HMEC. Cells were grown to confluence and exposed to WR1065 for 30 min. Affects on the transcription factors AP1, AP2, CREB, NFkappaB, and Sp1 were monitored as a function of time ranging from 30 min to 4 h after drug exposure using a gel-shift assay. Only NFkappaB exhibited a marked activation and that occurred 30 min following the cessation of drug exposure. MnSOD protein levels, as determined by Western blot analysis, increased up to 16-fold over background control levels by 16 h following drug treatment, and remained at 10-fold or higher levels for an additional 32 h. MnSOD activity was evaluated using a gel-based assay and was found to be active throughout this time period. HMEC were irradiated with X-rays either in the presence of 40 microM or 4 mM WR1065 or 24 h after its removal when MnSOD levels were most elevated. No protection was observed for cells irradiated in the presence of 40 microM WR1065. In contrast, a 4 mM dose of WR1065 afforded an increase in cell survival by a factor of 2. A "delayed radioprotective" effect was, however, observed when cells were irradiated 24 h later, regardless of the concentration of WR1065 used. This effect is characterized as an increase in survival at the 2 Gy dose point, i.e., a 40% increase in survival, and an increase in the initial slope of the survival curve by a factor of 2. The anti-inflammatory sesquiterpene lactone, Helenalin, is an effective inhibitor of NFkappaB activation. HMEC were exposed to Helenalin for 2 h at a nontoxic concentration of 5 microM prior to exposure to WR1065. This treatment not only inhibited activation of NFkappaB by WR1065, but also inhibited the subsequent elevation of MnSOD and the delayed radioprotective effect. A persistent marked elevation of MnSOD in cells following their exposure to a thiol-containing reducing agent such as WR1065 can result in an elevated resistance to the cytotoxic effects of ionizing radiation and represents a novel radioprotection paradigm.
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PMID:Delayed radioprotection by nuclear transcription factor kappaB -mediated induction of manganese superoxide dismutase in human microvascular endothelial cells after exposure to the free radical scavenger WR1065. 1654 Mar 96

Alzheimer's disease is a multifactorial, progressive, age-related neurodegenerative disease. In familial Alzheimer's disease, Abeta is excessively produced and deposited because of mutations in the amyloid precursor protein, presenilin-1, and presenilin-2 genes. Here, we generated a double homozygous knock-in mouse model that incorporates the Swedish familial Alzheimer's disease mutations and converts mouse Abeta to the human sequence in amyloid precursor protein and had the P264L familial Alzheimer's disease mutation in presenilin-1. We observed Abeta deposition in double knock-in mice beginning at 6 months as well as an increase in the levels of insoluble Abeta1-40/1-42. Brain homogenates from 3-, 6-, 9-, 12-, and 14-month-old mice showed that protein levels of manganese superoxide dismutase (MnSOD) were unchanged in the double knock-in mice compared to controls. Genotype-associated increases in nitrotyrosine levels were observed. Protein immunoprecipitation revealed MnSOD as a target of this nitration. Although the levels of MnSOD protein did not change, MnSOD activity and mitochondrial respiration decreased in knock-in mice, suggesting compromised mitochondrial function. The compromised activity of MnSOD, a primary antioxidant enzyme protecting mitochondria, may explain mitochondrial dysfunction and provide the missing link between Abeta-induced oxidative stress and Alzheimer's disease.
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PMID:Beta-amyloid mediated nitration of manganese superoxide dismutase: implication for oxidative stress in a APPNLH/NLH X PS-1P264L/P264L double knock-in mouse model of Alzheimer's disease. 1665 27

Oxidative stress is an important mediator of diaphragm muscle atrophy and contractile dysfunction during prolonged periods of controlled mechanical ventilation (MV). To date, specific details related to the impact of MV on diaphragmatic redox status remain unknown. To fill this void, we tested the hypothesis that MV-induced diaphragmatic oxidative stress is the consequence of both an elevation in intracellular oxidant production in conjunction with a decrease in the antioxidant buffering capacity. Adult rats were assigned to one of two experimental groups: 1) control or 2) 12 h of MV. Compared with controls, diaphragms from MV animals demonstrated increased oxidant production, diminished total antioxidant capacity, and decreased glutathione levels. Heme oxygenase-1 (HO-1) mRNA and protein levels increased (23.0- and 5.1-fold, respectively) following MV. Thioredoxin reductase-1 and manganese superoxide dismutase mRNA levels were also increased in the diaphragm following MV (2.4- and 1.6-fold, respectively), although no change was detected in the levels of either protein. Furthermore, copper-zinc superoxide dismutase and glutathione peroxidase mRNA were not altered following MV, although protein content decreased -1.3- and -1.7-fold, respectively. We conclude that MV promotes increased oxidant production and impairment of key antioxidant defenses in the diaphragm; collectively, these changes contribute to the MV-induced oxidative stress in this key inspiratory muscle.
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PMID:Mechanical ventilation promotes redox status alterations in the diaphragm. 1670 53

Oxidative damage is proposed as a key mediator of exacerbated morphological responses and deficits in behavioral recovery in aged subjects with traumatic brain injury (TBI). In the present study, we show exacerbated loss of tissue in middle aged (12 months) and aged (22 months) Fisher-344 rats compared to young animals (3 months) subjected to moderate TBI. Analysis of 4-hydroxynonenal (4-HNE) and acrolein, neurotoxic by-products of lipid peroxidation, shows significant (P < 0.05) age-dependent increases in ipsilateral (IP) hippocampus 1 and 7 days post injury. In IP cortex, 4-HNE was significantly elevated 1 day post injury in all age groups, and both 4-HNE and acrolein were elevated in middle aged and aged animals 7 days post injury. Comparison of antioxidant enzyme activities shows significant (P < 0.05) age-dependent decreases of manganese superoxide dismutase in IP hippocampus and cortex 1 and 7 days post injury. Glutathione reductase activity also showed an age-dependent decrease. Overall, our data show increased levels of oxidative damage, diminished antioxidant capacities, and increased tissue loss in TBI in aging.
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PMID:Oxidative stress in head trauma in aging. 1678 55

Chronic pelvic pain syndrome (CPPS) is a common and serious health problem affecting the quality of life in men. In this study, we aim to investigate the manganese superoxide dismutase (MnSOD) polymorphism at nucleotide 47 as a result of the change of Ala to Val on the protein sequence in CPPS patients. The frequencies were 0.45 and 0.38 for the Ala and 0.55 and 0.62 for Val in National Institutes of Health category 3a and 3b groups. The differences between control and CPPS patients were statistically significant (P<0.05). However, frequencies recorded in 3a and 3b groups were not statistically different (P>0.05). Same results were obtained for enzyme analysis of MnSOD and glutathione peroxidase. Control group antioxidant enzyme levels were higher than patients' samples. The low antioxidant status of CPPS patients might be the clue for pathophysiological problems, and highly distributed Val allele frequency can be a mediator point of the illness. Our findings lead to the suggestion that oxidative disorder-linked medical health problems can be associated with genetic risk factors such as polymorphisms.
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PMID:Manganese superoxide dismutase polymorphism in chronic pelvic pain syndrome patients. 1684 69

The mediators of acute exercise-induced preconditioning against ischemia-reperfusion injury are not understood. This study assesses the role of nitric oxide synthase (NOS), a reported mediator of other forms of preconditioning. Male Fischer 344 rats were divided into five groups (n = 6-7): sedentary (Sed); exercised 2 days on a treadmill at 20 m/min, 6 degrees grade, for 60 min (Run); sedentary, perfused with 100 microM N(omega)-nitro-l-arginine methyl ester hydrochloride (l-NAME) to inhibit NOS (Sed/L-N); exercised, perfused with l-NAME (Run/L-N); and exercised in a 4 degrees C environment, perfused with l-NAME (CRun/L-N). Twenty-four hours following exercise, isolated, perfused working hearts were subjected to 22.5 min of global ischemia plus 30 min of normoxic reperfusion. Left ventricle contents of several putative preconditioning mediators were determined. Postischemic recovery of cardiac output times systolic pressure was better in Run than Sed (78.4 vs. 50.2% of preischemia, P < 0.05). Inhibition of NOS did not abrogate the improved recovery in the exercise groups or alter recovery in Sed. All exercise groups also displayed improved myocardial efficiency (cardiac output times systolic pressure/oxygen consumption) postischemia and less lactate dehydrogenase release (P < 0.05). l-NAME appeared to lower lactate dehydrogenase release independent of exercise. The only change in antioxidant enzyme activity was a decrease in manganese superoxide dismutase in CRun/L-N (P < 0.05). Heat shock protein 72 expression increased only in Run and Run/L-N and endothelial NOS only in CRun/L-N (P < 0.05). Acute exercise-induced preconditioning of the Fischer 344 rat heart is not mediated by NOS and does not require increases in heat shock protein 72 or antioxidant enzymes.
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PMID:Improved postischemic function following acute exercise is not mediated by nitric oxide synthase in the rat heart. 1695 Oct 51


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