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)

The ohr (organic hydroperoxide resistance) gene product of Pseudomonas aeruginosa was essential for optimal resistance to organic hydroperoxides (OHPs) but not to hydrogen peroxide or paraquat. A Deltaohr mutant was hypersusceptible to OHPs in disk inhibition assays and showed enhanced killing by OHPs in liquid culture. The ohr gene product was demonstrated to contribute to the decomposition of OHPs. Transcription of ohr was induced up to 15-fold upon exposure to OHPs, and this induction was independent of OxyR. Somewhat enhanced ohr-lacZ activity was detected in mutant strains affected in ohr, ahpC, and oxyR, and this phenotype correlated with hypersusceptibility to OHPs, suggesting overlapping or compensatory functions of the ohr and ahpC gene products. A single transcriptional start site for ohr was determined, and ohr transcripts were abundant in cells treated with a sublethal dose of OHPs but not in cells treated with paraquat. An 84-bp portion upstream of the ohr mRNA start site was sufficient for ohr induction by OHPs. Thus, the ohr gene appears to encode an antioxidant enzyme that is not part of the OxyR regulon yet is specifically induced by OHPs.
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PMID:Genetic and physiological characterization of ohr, encoding a protein involved in organic hydroperoxide resistance in Pseudomonas aeruginosa. 1113 75

Estrogens exert profound effects on the physiology of diverse target cells and these effects appear to be mediated by two estrogen receptor (ER) subtypes, ERalpha and ERbeta. We have investigated how ER ligands, ranging from pure agonists to antagonists, interact with ERalpha and ERbeta, and regulate their transcriptional activity on different genes. Mutational mapping-structure activity studies indicate that different residues of the ER ligand binding domain are involved in the recognition of structurally distinct estrogens and antiestrogens. We have identified from ligands of diverse structure, several particularly interesting ones that are high potency selective agonists via ERalpha and others that are full agonists through ERalpha while being full antagonists through ERbeta. Antiestrogens such as hydroxytamoxifen, which are mixed agonist/antagonists through ERalpha, are pure antagonists through ERbeta at estrogen response element-containing gene sites. Studies with ERalpha/beta chimeric proteins reveal that tamoxifen agonism requires the activation function 1 region of ERalpha. Through two-hybrid assays, we have isolated an ER-specific coregulator that potentiates antiestrogen antagonist effectiveness and represses ER transcriptional activity. We have also focused on understanding the distinct pharmacologies of antiestrogen- and estrogen-regulated genes. Although antiestrogens are thought to largely act by antagonizing the actions of estrogens, we have found among several new ER-regulated genes, quinone reductase (QR), a detoxifying phase II antioxidant enzyme, that has its activity up-regulated by antiestrogens in an ER-dependent manner in breast cancer cells. This response is antagonized by estrogens, thus showing 'reversed pharmacology'. Increased QR activity by antiestrogens requires a functional ER (ERalpha or ERbeta) and is, interestingly, mediated via the electrophile response element in the QR gene 5' regulatory region. The up-regulation of QR may contribute to the beneficial effects of tamoxifen, raloxifene, and other antiestrogens in breast cancer prevention and treatment. Estrogens rapidly up-regulate expression of several genes associated with cell cytoarchitectural changes including NHE-RF, the sodium hydrogen exchanger regulatory factor, also known as EBP50. NHE-RF/EBP50 is enriched in microvilli, and may serve as a scaffold adaptor protein in regulating early changes in cell architecture and signal transduction events induced by estrogen. Analyses of the regulatory regions of these primary response genes, and the antioxidant and other signaling pathways involved, are providing considerable insight into the mechanisms by which ligands, that function as selective estrogen receptor modulators or SERMs, exert their marked effects on the activities and properties of target cells. The intriguing biology of estrogens in its diverse target cells is thus determined by the structure of the ligand, the ER subtype involved, the nature of the hormone-responsive gene promoter, and the character and balance of coactivators and corepressors that modulate the cellular response to the ER-ligand complex. The continuing development of ligands that function as selective estrogens or antiestrogens for ERalpha or ERbeta should allow optimized tissue selectivity of these agents for menopausal hormone replacement therapy and the treatment and prevention of breast cancer.
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PMID:Molecular mechanisms of estrogen action: selective ligands and receptor pharmacology. 1116 36

It is known that steroid hormones can affect neuronal susceptibility to different types of insults, including oxidative stress. Using an in vitro/ex vivo model, we have previously shown that cerebellar granule cells prepared from neonatal rats treated with a single dose of testosterone are less vulnerable to oxidative stress-induced cell death, via a mechanism involving an upregulation of the cellular antioxidant defenses. Whether the testosterone protective action on cerebellar granule cells was direct or indirect remained to be clarified. Therefore, in this study we have investigated the effects of in vitro testosterone treatment, to see whether it also protects cerebellar granule cells from oxidative stress-induced damage. Cerebellar granule cells treated with 10(-6) M testosterone for 48 h were found less susceptible to damage induced by 50 microM hydrogen peroxide, as shown by a 30% decrease in the number of cells with apoptotic morphology. The addition of the androgen receptor antagonist flutamide abolished the protective effect of testosterone, suggesting an androgen receptor-mediated mechanism. This hypothesis was further supported by the presence of the androgen receptor in cultured cerebellar granule cells. The activity of the antioxidant enzyme catalase was also measured, and a 2-fold increase was detected in the testosterone treated cells, but not in the cells co-treated with flutamide. The present results demonstrate that cerebellar granule cells treated in vitro with testosterone are protected from oxidative stress via a mechanism mediated by the androgen receptor. Similarly to what we observed after in vivo administration of testosterone, the potentiation of the antioxidant defences seems to play a major role in the protection afforded by testosterone.
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PMID:Testosterone protects cerebellar granule cells from oxidative stress-induced cell death through a receptor mediated mechanism. 1117 72

The use of naturally occurring botanicals with substantial antioxidant activity to afford protection to human skin against UV damage is receiving increasing attention. The green tea constituent (-)-epigallocatechin-3-gallate (EGCG) is a potent antioxidant and has shown remarkable preventive effects against photocarcinogenesis and phototoxicity in mouse models. In this study we have investigated the effects of topical application of EGCG, the major polyphenol present in green tea, to human skin before UV irradiation on UV-induced markers of oxidative stress and antioxidant enzymes. Using immunohistochemistry and analytical enzyme assays, we found that application of EGCG (mg/cm(2) skin) before a single UV exposure of 4x minimal erythema dose (MED) markedly decreases UV-induced production of hydrogen peroxide (68-90%, P < 0.025-0.005) and nitric oxide (30-100%, P < 0.025-0.005) in both epidermis and dermis in a time-dependent manner. EGCG pretreatment also inhibits UV-induced infiltration of inflammatory leukocytes, particularly CD11b(+) cells (a surface marker of monocytes/macrophages and neutrophils), into the skin, which are considered to be the major producers of reactive oxygen species. EGCG treatment was also found to inhibit UV-induced epidermal lipid peroxidation at each time point studied (41-84%, P < 0.05). A single UV exposure of 4x MED to human skin was found to increase catalase activity (109-145%) and decrease glutathione peroxidase (GPx) activity (36-54%) and total glutathione (GSH) level (13-36%) at different time points studied. Pretreatment with EGCG was found to restore the UV-induced decrease in GSH level and afforded protection to the antioxidant enzyme GPx. Further studies are warranted to study the preventive effects of EGCG against multiple exposures to UV light of human skin.
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PMID:Green tea polyphenol (-)-epigallocatechin-3-gallate treatment of human skin inhibits ultraviolet radiation-induced oxidative stress. 1118 50

In this study, we investigated the efficiency of short-term treatment with gemfibrozil in the reversal of diabetes-induced changes on carbohydrate and lipid metabolism, and antioxidant status of aorta. Diabetes was induced by a single injection of streptozotocin (45 mg/kg, i.p.). After 12 weeks of induction of diabetes, the control and diabetic rats were orally gavaged daily with a dosing vehicle alone or with 100 mg/kg of gemfibrozil for 2 weeks. At 14 weeks, there was a significant increase in blood glucose, plasma cholesterol and triglyceride levels of untreated-diabetic animals. Diabetes was associated with a significant increase in thiobarbituric acid reactive substances (TBARS) in both plasma and aortic homogenates, indicating increased lipid peroxidation. Diabetes caused an increase in vascular antioxidant enzyme activity, catalase, indicating existence of excess hydrogen peroxide (H2O2). However, superoxide dismutase (SOD) and glutathione peroxidase (GSHPx) activities in aortas did not significantly change in untreated-diabetic rats. In diabetic plus gemfibrozil group both plasma lipids and lipid peroxides showed a significant recovery. Gemfibrozil treatment had no effect on blood glucose, plasma insulin and vessel antioxidant enzyme activity of diabetic animals. Our findings suggest that the beneficial effect of short-term gemfibrozil treatment in reducing lipid peroxidation in diabetic animals does not depend on a change of glucose metabolism and antioxidant status of aorta, but this may be attributed to its decreasing effect on circulating lipids. The ability of short-term gemfibrozil treatment to recovery of metabolism and peroxidation of lipids may be an effective strategy to minimize increased oxidative stress in diabetic plasma and vasculature.
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PMID:Short-term gemfibrozil treatment reverses lipid profile and peroxidation but does not alter blood glucose and tissue antioxidant enzymes in chronically diabetic rats. 1121 64

Catalase is an antioxidant enzyme that plays a central role in the protection against oxidative stress through the metabolism of hydrogen peroxide. Catalase has been well studied in plants, bacteria, and mammals, but little work has been done in other vertebrate species. We have cloned the zebrafish (Danio rerio) catalase cDNA containing the complete coding region and analyzed expression by both reverse transcription polymerase chain reaction and western blot. The deduced amino acid sequence predicts a protein of 526 amino acids with both the primary DNA and amino acid sequences highly conserved among vertebrate species. The major protein-heme contact points in the catalase enzyme complex are also well conserved, although several amino acids associated with the second and third levels of the major substrate channel are not, suggesting potential differences in substrate access or specificity. The 3' flanking region of the cDNA contains a dinucleotide repeat near the termination codon consisting of a near perfect CA array that is polymorphic. The rat and mouse catalase genes also contain a CA repeat sequence in the 3' untranslated region, which, along with an adjacent 5' stem-loop structure, has previously been shown to be a site for mRNA protein binding (Clerch, 1995, Arch. Biochem. Biophys. 317 (1995) 267-274). A stem-loop structure is also predicted adjacent to the zebrafish CA repeat, suggesting a similar role in catalase gene regulation.
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PMID:Molecular cloning and sequence analysis of the Danio rerio catalase gene. 1128 Dec 62

The brain is particularly vulnerable to oxygen free radicals, which have been implicated in the pathology of several neurological disorders. The antioxidant enzyme (AOE) system of the brain may play an important role in the protection against such oxidative stress. We investigated the influence of oxidative stress on the transcription of catalase and MnSOD mRNA. Primary rat astroglial cell cultures were treated either with hydrogen peroxide (H2O2), as a direct mediator of oxidative stress, or with the redox cycling compound paraquat. Both substances led to an increase of catalase and MnSOD mRNA levels. To further elucidate the mechanisms residing behind this increase, transfection experiments were performed. Transient transfection of primary astroglial cells with a reporter plasmid containing the upstream region of the catalase gene showed a decrease in reporter gene activity after exposure of transfected cells to either H2O2 or paraquat. In contrast, transfection experiments done with reporter plasmids for the MnSOD upstream region resulted in an increase of reporter gene activity after H2O2 as well as after paraquat treatment of transfected cells. These results indicate transcriptional regulation of MnSOD and post-transcriptional regulation of catalase gene expression after oxidative stress in primary rat astrocytes.
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PMID:The influence of oxidative stress on catalase and MnSOD gene transcription in astrocytes. 1132 55

Nitric oxide (NO) was originally discovered as a vasodilator product of the endothelium. Over the last 15 years, this vascular mediator has been shown to have important antiplatelet actions as well. By activating guanylyl cyclase, inhibiting phosphoinositide 3-kinase, impairing capacitative calcium influx, and inhibiting cyclooxygenase-1, endothelial NO limits platelet activation, adhesion, and aggregation. Platelets are also an important source of NO, and this platelet-derived NO pool limits recruitment of platelets to the platelet-rich thrombus. A deficiency of bioactive NO is associated with arterial thrombosis in animal models, individuals with endothelial dysfunction, and patients with a deficiency of the extracellular antioxidant enzyme glutathione peroxidase-3. This enzyme catalyzes the reduction of hydrogen and lipid peroxides, which limits the availability of these reactive oxygen species to react with and inactivate NO. The complex biochemical reactions that underlie the function and inactivation of NO in the vasculature represent an important set of targets for therapeutic intervention for the prevention and treatment of arterial thrombotic disorders.
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PMID:Nitric oxide insufficiency, platelet activation, and arterial thrombosis. 1132 66

Oxidative stress has been causally linked to a variety of neurodegenerative diseases. To clarify the role of the antioxidant enzyme (AOE) system in oxidative brain damage primary cultures of rat astroglial cells were exposed to hydrogen peroxide (H2O2). Expression of AOEs and several parameters for cell viability and functionality were measured. In our experiments astrocytes responded to low concentrations of H2O2 exposure with a pronounced generation of ROS which ran parallel with induction of lipid peroxidation. This distinct oxidative stress was not reflected in cell viability or functionality parameters measured. Cytotoxicity, a decrease in glutathione content of astrocytes, and impairment of mitochondrial functions became obvious only for higher concentrations of H2O2. After H2O2 exposure catalase, manganese superoxide dismutase, and glutathione peroxidase expression levels were found to be increased, whereas copper/zinc superoxide dismutase mRNA expression was not affected. These data indicate that the AOE system of astrocytes can be directly regulated by oxidative stress and may thus contribute to protection of cells against oxidative insults.
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PMID:Changes in antioxidant enzyme expression in response to hydrogen peroxide in rat astroglial cells. 1140 37

Peroxiredoxins are widely distributed in nature and constitute a molecular family of antioxidant enzymes which decompose hydrogen peroxide and alkyl hydroperoxides. We have previously characterized a peroxiredoxin from bovine ciliary body and deduced its amino acid sequence from analysis of cDNA clones encoding the protein. In this work, we investigated the immunolocalization of this novel antioxidant enzyme and its mRNA expression in bovine eye tissues. High levels of immunoreactivity and mRNA for the enzyme were detected in corneal epithelium. Distinct immunoreactivity and mRNA expression for peroxiredoxin were also detected in uveal tissues, some of the retinal cell layers and ocular vasculature.
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PMID:Peroxiredoxin in bovine ocular tissues: immunohistochemical localization and in situ hybridization. 1143 47


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