KEGG:D00031 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: KEGG:D00031 (Glutathione)
5,383 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A chemically defined liquid medium has been developed for the study of the physiology and antigen production of the Legionnaires disease bacterium. The medium contains basal salts, vitamins, alpha-ketoglutaric acid, pyruvate, 0.05% l-cysteine, 0.05% glutathione, and a mixture of 20 additional amino acids, each of 0.01% final concentration, except serine, which was at 0.1%. The medium in shake culture at 37 degrees C with increased CO2 at pH 6.5, supports the maximum rate of growth, the highest cell yields, and the maximum cell surface antigen as distinguished by specific fluorescein isothiocyanate-conjugated antibody. Studies during the development of this medium showed that CO2, pyruvate, and alpha-ketoglutarate strongly stimulated growth; that cysteine and methionine were required for growth; and that serine, threonine, histidine, tyrosine, and tryptophane were energy sources. Glutathione substituted for cysteine, but cystine did not. The organisms did not use glucose and polysaccharides, as judged by cell yields when these carbohydrates were present or absent. The chelators malate, citrate, and ethylenediaminetetraacetic acid totally inhibited growth. Beta-mercaptoethanol, thioglycolate, dithiothreitol, and Tween 80 (0.05%) inhibited growth strongly or completely. Catalase activity was extremely weak or absent. Morphology varied, depending upon conditions and phases of growth. In general, filamentous forms became chains of cigar-shaped bacilli fragmenting to pairs and becoming coccoidal in the late stationary pha-e of growth. The organism grew at 25, 30, and 37 degrees C. Although they varied in their growth characteristics, 10 isolates were passed for five transfers in the chemically defined broth, giving maximum rates of growth, cell yields, and antigen production.
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PMID:Development of a chemically defined liquid medium for growth of Legionella pneumophila. 3 86

The activities of Superoxide Dismutase (SOD), Glutathione Peroxidase (GSH-Px) and Catalase (CAT) in the ischemic cerebral tissue following the unilateral middle cerebral artery occlusion of rats were assessed. In comparison with the sham-operated rats, both SOD and GSH-Px activity in the ischemic area (striatum and fronto-parietal cortex) were significantly reduced by 30 min. of ischemia, GSH-Px activity in the peri-ischemic area (parieto-parasagittal) was significantly reduced as well. It was shown that in the striatum the GSH-Px activity was much higher than that in the cortex. According to our data, it was suggested that in the ischemic condition, cerebral Superoxide (O2-) and Hydrogen Peroxide (H2O2) were accumulated, and thus the polyunsaturated fatty acids in the neuronal membrane were trapped by these free radical. And such a process resulted in neuronal damage. It implicated that the oxygen free radical might be involved in the neuronal damage induced by Dopamine, since the O2- and H2O2 were excessively generated during the oxidative deamination of Dopamine and the free radical scavengers, SOD and GSH-Px were decreased concomitantly in the cerebral ischemic tissue.
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PMID:[A study on the activity of three antioxidant enzymes in the brain of experimental acute cerebral ischemia]. 130 99

We used light microscopic immunohistochemistry to locate manganese superoxide dismutase, copper zinc superoxide dismutase, catalase, and glutathione-S-transferases in demineralized femora from rats of 4-14 weeks of age. Immunoblots confirmed the specificity of the polyclonal antibodies for the rat proteins of interest. Each of the enzymes exhibited a unique staining pattern. Copper-zinc superoxide dismutase was detected within some articular and epiphyseal chondrocytes of younger animals. Manganese superoxide dismutase was detected within some articular and epiphyseal chondrocytes, within some osteoprogenitor cells and osteoblasts, within many osteoclasts, and within some vascular smooth muscle cells. Catalase was identified within articular chondrocytes, epiphyseal chondrocytes, and osteocytes, whereas staining at the periphery of hypertrophic chondrocytes suggested extracellular and/or cell membrane-associted catalase. Glutathione-S-transferases were detected within and at the periphery of epiphyseal and articular chondrocytes and less prominently within cortical osteocytes. There were no major age-related changes in antioxidant enzyme distribution.
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PMID:Immunohistochemical identification of superoxide dismutases, catalase, and glutathione-S-transferases in rat femora. 157 Jul 63

The effects of catalase, superoxide dismutase, mannitol, glutathione, and diallyl sulfide on quercetin-induced DNA damage and lipid peroxidation were investigated in a model system of isolated rat-liver nuclei under aerobic conditions and in the presence of equimolar iron or copper. Mannitol produced a small but significant inhibition of the concurrent nuclear DNA damage and lipid peroxidation induced by quercetin in the presence of iron or copper. Catalase significantly decreased quercetin-induced nuclear DNA damage only in the presence of iron and had no significant effect on lipid peroxidation. Superoxide dismutase showed no significant effect on nuclear DNA damage, but stimulated the quercetin-induced lipid peroxidation only in the presence of copper. Glutathione significantly inhibited the nuclear lipid peroxidation but enhanced the DNA damage. Diallyl sulfide significantly enhanced the nuclear DNA damage but stimulated the lipid peroxidation only in the presence of iron. These results suggest that the reactive oxygen species, especially the hydroxyl radicals, are responsible for the concurrent lipid peroxidation and DNA damage induced by quercetin in the presence of iron or copper in isolated rat-liver nuclei.
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PMID:Effects of antioxidants on quercetin-induced nuclear DNA damage and lipid peroxidation. 175 17

Diet restriction, prolonging the lifespan of rodents, represents an interesting model for gerontological studies. We analyzed the activity of antioxidant enzymes, Superoxide Dismutase, Catalase and Glutathione Peroxidase in erythrocytes from young, old and old food restricted Wistar rats. Diet restriction was applied feeding the animals on every-other-day schedule starting from the age of 3.5 months. The age-dependent decrease of Catalase and Glutathione Peroxidase activities was prevented by food restriction, whereas Superoxide Dismutase activity was not influenced either by aging and dietary intervention. Present results support the hypothesis that diet restriction increases the protection of cell structure against the peroxidative damage, preserving the activity of antioxidant enzymes.
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PMID:Antioxidant enzymes in erythrocytes from old and diet restricted old rats. 209 75

The effects of cell-free generated oxidants on migrating and developing stages of Schistosoma mansoni were investigated and the levels of antioxidant enzymes and of glutathione were determined for each stage. Schistosomula and 2-week-old parasites recovered from the livers of infected mice showed similar susceptibility to killing by added hydrogen peroxide and t-butylhydroperoxide. However, when glucose (0.5 mM)-glucose oxidase (2.5 mU ml-1) and xanthine (0.5 mM) or hypoxanthine (0.5 mM)-xanthine oxidase (5.0 mU ml-1) systems were used to generate hydrogen peroxide and oxygen free-radicals, schistosomula were more susceptible to oxidative killing than the 2-week-old parasites. The 4- and 8-week-old worms were more resistant to oxidants than all of the younger stages. High levels of superoxide dismutase (16.2-24.8 U mg-1 protein) were present in all stages. Catalase was not detected. Glutathione peroxidase activity with cumene hydroperoxide as substrate was not detectable in the schistosomula but the activity was present in the 2-week-old parasites. However, hydrogen peroxide-sensitive glutathione peroxidase activity was present in all the stages with a threefold difference in activity between schistosomula and the adult stages. Glutathione-s-transferase activity was significantly lower in the schistosomula, lung stages, and the 2-week-old parasites than in the older stages. Progressive increases in the levels of glutathione reductase and glutathione were also observed with development. The differences in the levels of antioxidants between different stages of development may partly explain the increase in resistance to oxidant-mediated damage as the parasite develops.
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PMID:Schistosoma mansoni: levels of antioxidants and resistance to oxidants increase during development. 232 92

Over the last few years a remarkable progress has been made in the understanding of parasites biochemistry, molecular biology, and immunology. This progress is especially encouraging in that emphasis on drug development is shifting from random screening towards a more rational approach. A number of peculiar aspects characteristic of parasites which are not present in other organisms and that might be exploitable for the design of specific agents have been described recently. One of these aspects is their deficiency in defense mechanisms against oxygen toxicity. Catalase is absent in many parasites. Distinct superoxide dismutases have been detected and specific inhibitors of these enzymes have been investigated. Glutathione is absent in some anaerobic protozoa. Peroxidase and reductase activities dependent on a glutathione-spermidine cofactor termed trypanothione have been detected in several trypanosomatids and apparently replace the glutathione peroxidase-glutathione reductase system of other eukaryotic cells. Free radical intermediates have been shown to be involved in the reaction of enzymes present in anaerobic protozoa. In addition, a number of antiparasitic agents have been shown to exert their actions through a free radical metabolism: nitro compounds used against trypanosomatids, anaerobic protozoa and helminths; crystal violet used in blood banks to prevent blood transmission of Chagas' disease; the antimalarial primaquine, chloroquinine, and quinhasou; and quinones active in vitro and in vivo against different parasites.
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PMID:Sensitivity of parasites to free radical damage by antiparasitic drugs. 240 32

Mechanisms for resistance were studied in three classic type, human small cell lung cancer cell lines, GLC14, GLC16, and GLC19, that were established from one patient during clinical follow-up. Clinically the tumor changed from sensitive (GLC14) to completely resistant to (chemo)therapy (GLC19) during this period. The stain with JSB-1 antibody, detecting the Mr 170,000 multidrug resistance associated glycoprotein, was most pronounced in GLC16 and absent in GLC19. Intracellular Adriamycin (Adr) concentrations were decreased in GLC16 and GLC19 versus GLC14. Glutathione levels were 12.9, 15.5, and 16.6 micrograms/mg protein; total sulfhydryl groups were 36.5, 45.7, and 48.8 micrograms/mg protein; and glutathione S-transferase activity was 13, 29, and 43 nmol I-chloro-2,4-dinitrobenzene/min/mg protein for GLC14, GLC16, and GLC19, respectively. Incubation with DL-buthionine-S,R-sulfoximine increased Adr and cisplatin induced cytotoxicity, whereas X-ray induced cytotoxicity remained the same. Catalase activity increased from 0.88 to 1.73 to 3.83 mumol H2O2/min/mg protein in, respectively, GLC14, GLC16, and GLC19. Compared to GLC14 and GLC16, Adr induced a higher amount of DNA strand breaks in GLC19. In none of the three cell lines could Adr induced DNA strand breaks be repaired. X-ray induced a comparable amount of DNA strand breaks in all three cell lines but all cell lines were capable of repairing the X-ray induced DNA strand breaks within 90 min. It is concluded that a number of different mechanisms are operative and that some but not all of the observed changes in mechanisms for drug resistance in these lines correlate with the clinical data.
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PMID:Resistance mechanisms in three human small cell lung cancer cell lines established from one patient during clinical follow-up. 254 37

The mono-electronic reduction of oxygen in the hypoxanthine-xanthine oxidase system led to the formation of active species eliciting an evident and highly reproducible mutagenic response in strain TA104 of S. typhimurium. Similar effects were observed by generating oxy radicals either extracellularly or inside bacterial cells. Mutagenicity was selectively detected in TA104 and not in other Salmonella strains, which points out the importance of the hisG428 mutation and of the deletion excising the uvrB gene, as far as sensitivity to oxy radicals is concerned. The mutagenicity of the system was further enhanced in the presence of superoxide dismutase. Catalase did not affect the mutagenicity of hypoxanthine plus xanthine oxidase, whereas it inhibited the mutagenicity induced by the mixture of hypoxanthine with xanthine oxidase and superoxide dismutase. This demonstrates that not only hydrogen peroxide but also the superoxide radical anion is positive in this system. Glutathione and 2 synthetic thiols, i.e., N-acetylcysteine and alpha-mercaptopropionylglycine, besides decreasing the high spontaneous mutagenicity of TA104, efficiently prevented the mutagenicity of active oxygen species.
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PMID:Mutagenicity of active oxygen species in bacteria and its enzymatic or chemical inhibition. 267 96

Release of iron from ferritin by the polyhydroxypyrimidines, dialuric acid, isouramil, divicine, and acid-hydrolyzed vicine, was measured. Iron was released at fast initial rates which gradually declined to zero in 10 min. All the compounds were better reductants for ferritin-iron under nitrogen than in air. The effects of superoxide dismutase, catalase, and glutathione on both initial rates and total iron released over 30 min in air were determined. Major effects were inhibition by superoxide dismutase for divicine and isouramil and enhancement for dialuric acid and acid-hydrolyzed vicine. Glutathione promoted increased iron release that was further enhanced by superoxide dismutase. These increases were particularly striking over the longer time period. Catalase, in all cases, gave modest enhancement. Enhanced iron release correlated with inhibition of pyrimidine oxidation. The results indicate that the reduced form of each pyrimidine releases ferritin iron directly, and the effects of the antioxidants are mainly to maintain or regenerate the reduced pyrimidines. A combination of each pyrimidine and ferritin caused peroxidation of phopholipid liposomes, above that seen with the pyrimidines and adventitious iron. Glutathione, superoxide dismutase, and catalase modulated lipid peroxidation in a way consistent with their effects being mainly on ferritin-iron release. On the basis of our findings, we propose that the release and subsequent reactions of ferritin-iron may contribute to the toxicity of these compounds. Although glutathione and superoxide dismutase together efficiently inhibit redox cycling and H2O2 production from the pyrimidines, this combination maximized iron release from ferritin and ferritin-dependent lipid peroxidation.
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PMID:Release of iron from ferritin by divicine, isouramil, acid-hydrolyzed vicine, and dialuric acid and initiation of lipid peroxidation. 273 3

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