Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

To study early subcellular pathologic changes of tumorigenesis in mouse skin and possible modulation by overexpression of the mitochondrial antioxidant enzyme manganese superoxide dismutase (MnSOD), skin keratinocytes from nontransgenic (Ntg) and transgenic (TgH) mice overexpressing MnSOD topically treated with one dose of 7,12-dimethylbenz(a)anthracene (DMBA) and a subsequent dose of 12-O-tetradecanoylphorbol 13-acetate (TPA) were analyzed in situ for levels of MnSOD and the oxidative damage product 4-hydroxy-2-nonenal (4HNE)-modified proteins using specific antibodies and immunogold electron microscopy. At all selected time points analyzed after TPA treatment, there was more MnSOD immunoreactive protein in mitochondria of keratinocytes of TgH mice than Ntg mice. Compared with untreated groups, there was a large increase in 4HNE-modified proteins at 6-24 h after TPA treatment, and this increase was larger in Ntg than TgH mice. Indices of mitosis and apoptosis of keratinocytes were greater in DMBA/TPA-treated TgH than Ntg mouse skin. Mitochondrial injury detected by transmission electron microscopy was delayed in keratinocytes of TgH compared with Ntg mice. The present study demonstrated that overexpression of MnSOD not only protected cells from oxidative damage, but also affected cell turnover kinetics. Thus, previously identified reduction in papilloma formation observed in TgH mice is correlated with mitochondrial events.
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PMID:In situ reduction of oxidative damage, increased cell turnover, and delay of mitochondrial injury by overexpression of manganese superoxide dismutase in a multistage skin carcinogenesis model. 1513 Feb 80

A growing body of evidence suggests a relationship between oxidative stress and beta-amyloid (Abeta) peptide accumulation, a hallmark in the pathogenesis of Alzheimer's disease (AD). However, a direct causal relationship between oxidative stress and Abeta pathology has not been established in vivo. Therefore, we crossed mice with a knockout of one allele of manganese superoxide dismutase (MnSOD), a critical antioxidant enzyme, with Tg19959 mice, which overexpress a doubly mutated human beta-amyloid precursor protein (APP). Partial deficiency of MnSOD, which is well established to cause elevated oxidative stress, significantly increased brain Abeta levels and Abeta plaque burden in Tg19959 mice. These results indicate that oxidative stress can promote the pathogenesis of AD and further support the feasibility of antioxidant approaches for AD therapy.
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PMID:Increased plaque burden in brains of APP mutant MnSOD heterozygous knockout mice. 1514 24

It has been hypothesized that exposure of cells to hyperthermia results in an increased flux of reactive oxygen species (ROS), primarily superoxide anion radicals, and that increasing antioxidant enzyme levels will result in protection of cells from the toxicity of these ROS. In this study, the prostate cancer cell line, PC-3, and its manganese superoxide dismutase (MnSOD)-overexpressing clones were subjected to hyperthermia (43 degrees C, 1 h). Increased expression of MnSOD increased the mitochondrial membrane potential (MMP). Hyperthermic exposure of PC-3 cells resulted in increased ROS production, as determined by aconitase inactivation, lipid peroxidation, and H2O2 formation with a reduction in cell survival. In contrast, PC-3 cells overexpressing MnSOD had less ROS production, less lipid peroxidation, and greater cell survival compared to PC-3 Wt cells. Since MnSOD removes superoxide, these results suggest that superoxide free radical or its reaction products are responsible for part of the cytotoxicity associated with hyperthermia and that MnSOD can reduce cellular injury and thereby enhance heat tolerance.
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PMID:Overexpression of manganese superoxide dismutase promotes the survival of prostate cancer cells exposed to hyperthermia. 1551 1

This study investigates the role of the antioxidant enzyme manganese superoxide dismutase (MnSOD) in androgen-independent human prostate cancer (PC-3) cells' growth rate in vitro and in vivo. MnSOD levels were found to be lower in parental PC-3 cells compared to nonmalignant, immortalized human prostate epithelial cells (P69SV40T). To unravel the role of MnSOD in the prostate cancer phenotype, PC-3 cells were stably transfected with MnSOD cDNA plasmid. The MnSOD protein and activity levels in clones overexpressing MnSOD were increased seven- to eightfold. These cell lines showed elongated cell doubling time, reduced anchorage-independent growth in soft agar compared to parental PC-3 (Wt) cells, and reduced growth rate of PC-3 tumor xenografts in athymic nude mice. Flow cytometric studies showed an increase in membrane potential in the MnSOD-overexpressing clone (Mn32) compared to Wt and Neo cells. Also, production of extracellular H(2)O(2) was increased in the MnSOD-overexpressing clones. As determined by DNA cell cycle analysis, the proportion of cells in G(1) phase was enhanced by MnSOD overexpression. Therefore, MnSOD not only regulates cell survival but also affects PC-3 cell proliferation by retarding G(1) to S transition. Our results are consistent with MnSOD being a tumor suppressor gene in human prostate cancer.
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PMID:Manganese superoxide dismutase overexpression inhibits the growth of androgen-independent prostate cancer cells. 1554 33

We tested the hypothesis that manganese superoxide dismutase (MnSOD), an antioxidant enzyme, regulates the proliferative potential of confluent human fibroblasts. Normal human skin (AG01522) and lung (WI38, CCL-75) fibroblasts kept in confluence (>95% G(0)/G(1)) showed a significant decrease in their capacity to re-enter the proliferation cycle after 40-60 days. The inhibition of re-entry was accompanied with the age-dependent increase of p16 protein levels in the confluent culture. Adenoviral mediated overexpression of MnSOD during confluent growth suppressed p16, enhanced p21 protein accumulation, and protected fibroblasts against the loss of proliferation potential. Increases in p21 protein levels in MnSOD overexpressing confluent fibroblasts were independent of p53 protein levels. p53 protein levels did not change in control, replication-defective adenovirus containing an insertless vector (AdBgl II), or AdMnSOD-infected confluent cells cultured for 20 and 60 days. In addition, MnSOD-induced protection of the proliferation capacity of confluent fibroblasts was independent of their telomerase activity. However, telomerase-transformed fibroblasts showed increased MnSOD expression in confluent growth, maintaining their capacity to re-enter the proliferation cycle. Although inactivation of the retinoblastoma protein in cells subcultured from the 60-day confluent control, AdBgl II-, and AdMnSOD-infected fibroblasts was identical, only MnSOD-overexpressing cells showed a higher percentage of S-phase. These results support the hypothesis that a redox-sensitive checkpoint regulated the progression of fibroblasts from G(0)/G(1) to S-phase.
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PMID:Manganese superoxide dismutase protects the proliferative capacity of confluent normal human fibroblasts. 1574 56

Oxidative stress may enhance prostatic carcinogenesis. A polymorphism [valine (V) --> alanine (A)] of manganese superoxide dismutase (MnSOD), the primary antioxidant enzyme in mitochondria, has been recently associated with prostate cancer. We examined the relationship between prostate cancer and the MnSOD polymorphism and its interactions with baseline plasma antioxidant levels (selenium, lycopene, and alpha-tocopherol) and beta-carotene treatment among 567 cases and 764 controls nested in the prospective Physicians' Health Study. We found little overall association between MnSOD polymorphism and prostate cancer risk; however, this polymorphism significantly modified risk of prostate cancer associated with prediagnostic plasma antioxidants (P(interaction) > or = 0.05). Among men with the AA genotype, high selenium level (4th versus 1st quartile) was associated with a relative risk (RR) of 0.3 [95% confidence interval (CI), 0.2-0.7] for total prostate cancer; for clinically aggressive prostate cancer, the RR was 0.2 (95% CI, 0.1-0.5). In contrast, among men with the VV/VA genotype, the RRs were 0.6 (0.4-1.0) and 0.7 (0.4-1.2) for total and clinically aggressive prostate cancer. These patterns were similar for lycopene and alpha-tocopherol and were particularly strong when these antioxidants and selenium were combined; men with the AA genotype had a 10-fold gradient in risk for aggressive prostate cancer across quartiles of antioxidant status. Men with AA genotype who were randomly assigned to beta-carotene treatment (versus placebo) had a RR of 0.6 (95% CI, 0.2-0.9; P(interaction) = 0.03) for fatal prostate cancer, but no significant association was observed in men with the VV/VA genotype. Both endogenous and exogenous antioxidants play an important and interdependent role in preventing clinically significant prostate cancer.
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PMID:Manganese superoxide dismutase polymorphism, prediagnostic antioxidant status, and risk of clinical significant prostate cancer. 1578 67

The tumor suppressor gene p53 is activated by reactive oxygen species-generating agents. After activation, p53 migrates to mitochondria and nucleus, a response that eventually leads to apoptosis, but how the two events are related is unknown. Herein, we show that p53 translocation to mitochondria precedes its translocation to nucleus in JB6 skin epidermal cells treated with the tumor promoter 12-O-tetradecanoylphorbol-13-acetate (TPA). Translocation of p53 to mitochondria occurs within 10 minutes after TPA application. In the mitochondria, p53 interacts with the primary antioxidant enzyme, manganese superoxide dismutase (MnSOD), consistent with the reduction of its superoxide scavenging activity, and a subsequent decrease of mitochondrial membrane potential. In contrast to the immediate action on mitochondria, p53 transcriptional activity in the nucleus increases at 1 hour following TPA application, accompanied by an increase in the levels of its target gene bax at 15 hours following TPA treatment. Activation of p53 transcriptional activity is preventable by application of a SOD mimetic (MnTE-2-PyP5+). Thus, p53 translocation to mitochondria and subsequent inactivation of MnSOD explains the observed mitochondrial dysfunction, which leads to transcription-dependent mechanisms of p53-induced apoptosis.
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PMID:p53 translocation to mitochondria precedes its nuclear translocation and targets mitochondrial oxidative defense protein-manganese superoxide dismutase. 1586 70

We investigated the role that manganese superoxide dismutase (MnSOD), an important antioxidant enzyme, may play in the drought tolerance of rice. MnSOD from pea (Pisum sativum) under the control of an oxidative stress-inducible SWPA2 promoter was introduced into chloroplasts of rice (Oryza sativa) by Agrobacterium-mediated transformation to develop drought-tolerant rice plants. Functional expression of the pea MnSOD in transgenic rice plants (T1) was revealed under drought stress induced by polyethylene glycol (PEG) 6000. After PEG treatment the transgenic leaf slices showed reduced electrolyte leakage compared to wild type (WT) leaf slices, whether they were exposed to methyl viologen (MV) or not, suggesting that transgenic plants were more resistant to MV- or PEG-induced oxidative stress. Transgenic plants also exhibited less injury, measured by net photosynthetic rate, when treated with PEG. Our data suggest that SOD is a critical component of the ROS scavenging system in plant chloroplasts and that the expression of MnSOD can improve drought tolerance in rice.
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PMID:Enhanced drought tolerance of transgenic rice plants expressing a pea manganese superoxide dismutase. 1590 Aug 89

The generation of reactive oxygen species (ROS) by mitochondrial electron transport chain (ETC) and oxidative phosphorylation activity, has been linked to modifications of multiple molecular processes, including lipid peroxidation, signaling pathway and transcription factor modulation, and oxidative damage to DNA. Oxidative damage by endogenous ROS has been associated with the etiology of various pathological states. There are numerous reports that levels of manganese superoxide dismutase enzyme (MnSOD), an antioxidant enzyme responsible for the attenuation of ROS, are lowered in cancer cells, but the reasons for this reduction are poorly defined. Epigenetic silencing of genes involved in tumor suppression and DNA repair is known to occur in a variety of malignant cell types. Here we report that in the human multiple myeloma cell line KAS 6/1, the SOD-2 gene, encoding manganese superoxide dismutase, is epigenetically silenced as a result of promoter hypermethylation. The DNA methyltransferase inhibitor Zebularine reverses SOD-2 promoter methylation, increasing gene expression and enzyme levels. Infection of KAS 6/1 cells with a recombinant adenovirus carrying the MnSOD cDNA reduced the cell proliferation rate by approximately one-half, confirming the detrimental effects of epigenetic silencing of SOD-2 expression.
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PMID:Epigenetic silencing of manganese superoxide dismutase (SOD-2) in KAS 6/1 human multiple myeloma cells increases cell proliferation. 1590 83

Declines in oxidative and thermal stress tolerance are well documented in aging systems. It is thought that these alterations are due in part to reductions in antioxidant defenses. Although intracellular thiols are major redox buffers, their role in maintaining redox homeostasis is not completely understood, particularly during aging, where the reliance on antioxidant enzymes and proteins may be altered. To determine whether thiol supplementation improved the antioxidant enzyme profile of aged animals after heat stress, young and old Fischer 344 rats were treated with N-acetylcysteine (NAC; 4 mmol/kg ip) 2 h before heat stress. Liver tissue was collected before and 0, 30, and 60 min after heat stress. Aging was associated with a significant decline in tissue cysteine and glutathione (GSH) levels. There was also an age-related decrease in copper-zinc superoxide dismutase activity. Heat stress did not alter liver GSH, glutathione disulfide, or antioxidant enzyme activity. With NAC treatment, old animals took up more cysteine than young animals as reflected in an increase in liver GSH and a corresponding decrease in glutamate cysteine ligase activity. Catalase activity increased after NAC treatment in both age groups. Copper-zinc superoxide dismutase activity did not change with heat stress or drug treatment, whereas manganese superoxide dismutase activity was increased in old animals only. These data indicate that GSH synthesis is substrate limited in old animals. Furthermore, aged animals were characterized by large fluctuations in antioxidant enzyme balance after NAC treatment, suggesting a lack of fine control over these enzymes that may leave aged animals susceptible to subsequent stress.
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PMID:Thiol supplementation in aged animals alters antioxidant enzyme activity after heat stress. 1609 96


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