Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.11.1.6 (catalase)
 55,569 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The antimalaria drug, artesunate (ART), is very cytotoxic in tumor cell lines. The active moiety of ART is an endoperoxide bridge that generates carbon-centered free radicals and oxidative stress upon cleavage. Oxidative stress appears to be necessary for the antimalarial activity of ART. To test whether antioxidant gene expression affects the ART response in tumor cell lines we compared the baseline antioxidant mRNA gene expression in the 55 human tumor cell line panel from the National Cancer Institute Developmental Therapeutics Program to the ART IC50. Thioredoxin reductase expression showed a significant positive correlation to the ART IC50 and catalase expression was inversely correlated with the ART IC50 (p<0.05). WEHI7.2 mouse thymoma cells selected for resistance to hydrogen peroxide or transfected with thioredoxin, manganese superoxide dismutase, catalase or bcl-2 showed resistance to ART compared to the parental cell line. Taken together these data support a role for oxidative stress in the mechanism of ART action in tumor cells and suggest that antioxidant defenses act in combination to affect the cellular response to ART.
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PMID:Role of antioxidant genes for the activity of artesunate against tumor cells. 1296 9

Recent studies from our laboratory demonstrated that Egr-1 is upregulated in the rat duodenal mucosa during cysteamine-induced duodenal ulceration and that antisense egr-1 oligonucleotide aggravates the duodenal ulcers. This study was aimed to determine the effects of cysteamine on redox-sensitive Egr-1 transcriptional activity and on other thiol-containing proteins such as redox factor-1 (Ref-1) and thioredoxin (Trx). Here we demonstrate for the first time that cysteamine increases the expression and nuclear translocation of Egr-1, Ref-1, and Trx, and activates binding of Egr-1 to DNA. Moreover, we also show that Egr-1 forms a complex with other redox-sensitive transcription factors (e.g., AP-1, AP-2, NFATc, Sp1, PAX-5, MTF-1, c-Myb, and CREB) in rat duodenal mucosa and that cysteamine enhances the formation of these complexes. The antioxidant ebselen markedly elevated the nuclear Ref-1 expression and Egr-1/DNA binding, and decreased the ulcerogenic effect of cysteamine as did catalase. Thus, redox-sensitive signaling systems seem to play an important role in cysteamine-induced duodenal ulceration.
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PMID:Effect of cysteamine on redox-sensitive thiol-containing proteins in the duodenal mucosa. 1367 60

Overexpression of catalase, but not manganese superoxide dismutase (MnSOD), inhibited glucose deprivation-induced cytotoxicity and c-Jun N-terminal kinase 1 (JNK1) activation in human prostate adenocarcinoma DU-145 cells. Suppression of JNK1 activation by catalase overexpression resulted from inhibition of apoptosis signal-regulating kinase 1 (ASK1) activation by preventing dissociation of thioredoxin (TRX) from ASK1. Overexpression of catalase also inhibited relocalization of Daxx from the nucleus to the cytoplasm as well as association of Daxx with ASK1 during glucose deprivation. Taken together, hydrogen peroxide (H(2)O(2)) rather than superoxide anion (O(2) (*-)) acts as a second messenger of metabolic oxidative stress to activate the ASK1-MAPK/extracellular signal-regulated kinase (ERK) kinase (MEK)-mitogen-activated protein kinase (MAPK) signal transduction pathway.
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PMID:Catalase, but not MnSOD, inhibits glucose deprivation-activated ASK1-MEK-MAPK signal transduction pathway and prevents relocalization of Daxx: hydrogen peroxide as a major second messenger of metabolic oxidative stress. 1450 47

Leptin acts on energy metabolism and plays a role in skin repair and in the modulation of cellular redox balance as well. Here, we investigated the effects of leptin on the redox homeostasis in keratinocytes, by evaluating reactive oxygen species (ROS) generation, glutathione content, antioxidant enzymes, activating protein 1 (AP-1) activity, and expression of AP-1-dependent, differentiation-specific genes. We also evaluated the systems involved in the maintenance of a positive ascorbate/dehydroascorbate ratio, i.e., transport and recycling. Leptin altered the keratinocyte redox state, as evident by enhanced ROS generation, oxidized/reduced glutathione ratio, and AP-1 activity. Still, this phenomenon was temporary. Indeed, we found an adaptive response, as demonstrated by an early induction of catalase and a late induction of specific dehydroascorbate reductase activities. In particular, leptin-treated cells showed an increased ability to reduce dehydroascorbate, both in a NADH, lipoic acid- and in a NADPH, thioredoxin-dependent manner. Our results show that leptin may induce adaptation to oxidative stress in skin, leading to an improved vitamin C homeostasis.
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PMID:Vitamin C recycling is enhanced in the adaptive response to leptin-induced oxidative stress in keratinocytes. 1463 97

Little is known about the roles of androgens in the regulation of redox state in the prostate, a cellular process believed to profoundly influence normal and aberrant prostate functions. We demonstrate that castration induced discrete oxidative stress (OS) in the acinar epithelium of rat ventral prostate (VP), as evident from marked increases in 8-hydroxy-2'-deoxy-guanosine and 4-hydroxynonenal protein adducts in the regressing epithelium. Testosterone replacement partially reduced OS in VP epithelia of castrates, but the level remained higher than in intact rats. Quantification of steady-state mRNA levels of 14 genes involved in the anabolism and catabolism of reactive oxygen species (ROS) showed that castration resulted in dramatic increases of three ROS-generating NAD(P)H oxidases (Noxs) including Nox1, gp91(phox), and Nox4, significant reductions of key ROS-detoxifying enzymes (superoxide dismutase 2, glutathione peroxidase 1, thioredoxin, and peroxiredoxin 5), and unchanged levels of catalase, glutathione reductase, gamma-glutamyl transpeptidase, and glutathione synthetase. Testosterone replacement in castrated rats partially reduced expression of Noxs but restored expression of superoxide dismutase 2, glutathione peroxidase 1, thioredoxin, and peroxiredoxin 5 to complete normalcy and induced a compensatory increase in expression of catalase, glutathione reductase, gamma-glutamyl transpeptidase, and glutathione synthetase in the regenerating VP. Expression of superoxide dismutase 1, glutathione S-transferase-pi, and glucose-6-phosphate dehydrogenase was unaffected by castration and testosterone replacement. These findings indicate androgen-deprivation induces OS in the rat VP through elevation of ROS anabolism and diminution of antioxidant detoxification. Androgen replacement partially reduces OS in rat VP to precastration levels. Expression of Noxs remained high amid a broad-based recovery of antioxidant defense mechanism(s). These data might have implications on the use of androgen blockade for prostate cancer prevention and androgen therapy for andropause treatment in elderly men.
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PMID:Androgenic regulation of oxidative stress in the rat prostate: involvement of NAD(P)H oxidases and antioxidant defense machinery during prostatic involution and regrowth. 1463 23

Superoxide dismutase, catalase, glutathione peroxidase and peroxiredoxins form an antioxidant network protecting cells against reactive oxygen species (ROS). Catalase is a potent H2O2-detoxifying enzyme, which is unexpectedly absent in some members of the Kinetoplastida and Apicomplexa, but present in Toxoplasma gondii. In T. gondii, catalase appears to be cytosolic. In addition, T. gondii also possesses genes coding for other types of peroxidases, including glutathione/thioredoxin-like peroxidases and peroxiredoxins. This study presents a detailed analysis of the role of catalase in the parasite and reports the existence of antioxidant enzymes localized in the cytosol and the mitochondrion of T. gondii. The catalase gene was disrupted and, in addition, T. gondii cell lines overexpressing either catalase or a cytosolic 1-cys peroxiredoxin, TgPrx2, under the control of a strong promoter were created. Analysis of these mutants confirmed that the catalase activity is cytosolic and is encoded by a unique gene in T. gondii. Furthermore, the catalase confers protection against H2O2 exposure and contributes to virulence in mice. The overexpression of Prx2 also increases protection against H2O2 treatment, suggesting that catalase and other peroxidases function as a defence mechanism against endogenously produced reactive oxygen intermediates and the oxidative stress imposed by the host.
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PMID:The antioxidant systems in Toxoplasma gondii and the role of cytosolic catalase in defence against oxidative injury. 1465 10

Electrophoretic mobility shift assays (EMSA) revealed that under standard cell culture conditions NF-kappaB was induced in Fanconi anemia fibroblasts in contrast to control cells. Dithiothreitol, a potent synthetic redox potential-delivering compound, when added to growing cells, prevented this induction of NF-kappaB and, simultaneously, chromosomal instability was reduced. Fanconi anemia cells possess low endogenous levels of the naturally occurring antioxidant thioredoxin. Transfection of Fanconi anemia cells with thioredoxin cDNA containing a nuclear localization signal prevented both spontaneous as well as mitomycin C-induced chromosomal instability. A promotor construct with two NF-kappaB binding sites in front of the CAT gene induced little CAT expression in cells with low thioredoxin content in spite of induced NF-kappaB. In cells with higher thioredoxin content CAT expression was increased. Cotransfection of the NF-kappaB-dependent CAT plasmid with the Trx/nuc-plasmid into FA fibroblasts increased the CAT expression to almost that of control cells, indicating that in this model system with diminished thioredoxin content NF-kappaB requires thioredoxin for binding to its specific promotor. Since Fanconi anemia cells have low thioredoxin contents, NF-kappaB-dependent genes are expressed insufficiently. This explains part of the pathophysiological processes observed in Fanconi anemia.
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PMID:Suboptimal action of NF-kappaB in Fanconi anemia cells results from low levels of thioredoxin. 1466 93

Drug resistance and virulence of Mycobacterium tuberculosis are in part related to the pathogen's antioxidant defense systems. KatG(-) strains are resistant to the first line tuberculostatic isoniazid but need to compensate their catalase deficiency by alternative peroxidase systems to stay virulent. So far, only NADH-driven and AhpD-mediated hydroperoxide reduction by AhpC has been implicated as such virulence-determining mechanism. We here report on two novel pathways which underscore the importance of the thioredoxin system for antioxidant defense in M. tuberculosis: (i) NADPH-driven hydroperoxide reduction by AhpC that is mediated by thioredoxin reductase and thioredoxin C and (ii) hydroperoxide reduction by the atypical peroxiredoxin TPx that equally depends on thioredoxin reductase but can use both, thioredoxin B and C. Kinetic analyses with different hydroperoxides including peroxynitrite qualify the redox cascade comprising thioredoxin reductase, thioredoxin C, and TPx as the most efficient system to protect M. tuberculosis against oxidative and nitrosative stress in situ.
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PMID:Multiple thioredoxin-mediated routes to detoxify hydroperoxides in Mycobacterium tuberculosis. 1487 80

The effect of thioredoxin peroxidases on the protection of Ca(2+)-induced inner mitochondrial membrane permeabilization was studied in the yeast Saccharomyces cerevisiae using null mutants for these genes. Since deletion of a gene can promote several other effects besides the absence of the respective protein, characterizations of the redox state of the mutant strains were performed. Whole cellular extracts from all the mutants presented lower capacity to decompose H(2)O(2) and lower GSH/GSSG ratios, as expected for strains deficient for peroxide-removing enzymes. Interestingly, when glutathione contents in mitochondrial pools were analyzed, all mutants presented lower GSH/GSSG ratios than wild-type cells, with the exception of DeltacTPxI strain (cells in which cytosolic thioredoxin peroxidase I gene was disrupted) that presented higher GSH/GSSG ratio. Low GSH/GSSG ratios in mitochondria increased the susceptibility of yeast to damage induced by Ca(2+) as determined by membrane potential and oxygen consumption experiments. However, H(2)O(2) removal activity appears also to be important for mitochondria protection against permeabilization because exogenously added catalase strongly inhibited loss of mitochondrial potential. Moreover, exogenously added recombinant peroxiredoxins prevented inner mitochondrial membrane permeabilization. GSH/GSSG ratios decreased after Ca(2+) addition, suggesting that reactive oxygen species (ROS) probably mediate this process. Taken together our results indicate that both mitochondrial glutathione pools and peroxide-removing enzymes are key components for the protection of yeast mitochondria against Ca(2+)-induced damage.
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PMID:Glutathione and thioredoxin peroxidases mediate susceptibility of yeast mitochondria to Ca(2+)-induced damage. 1508 89

Proteomics were used to identify the proteins from the eukaryotic unicellular green alga Chlamydomonas reinhardtii that can be reduced by thioredoxin. These proteins were retained specifically on a thioredoxin affinity column made of a monocysteinic thioredoxin mutant able to form mixed disulfides with its targets. Of a total of 55 identified targets, 29 had been found previously in higher plants or Synechocystis, but 26 were new targets. Biochemical tests were performed on three of them, showing a thioredoxin-dependent activation of isocitrate lyase and isopropylmalate dehydrogenase and a thioredoxin-dependent deactivation of catalase that is redox insensitive in Arabidopsis. In addition, we identified a Ran protein, a previously uncharacterized nuclear target in a photosynthetic organism. The metabolic and evolutionary implications of these findings are discussed.
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PMID:New thioredoxin targets in the unicellular photosynthetic eukaryote Chlamydomonas reinhardtii. 1512 30


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