EC:2.5.1.18 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.5.1.18 (glutathione S-transferase)
22,582 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Friend erythroleukemia cells (FLC) selected by exposure to Adriamycin (doxorubicin) express an approximate 2.5-fold (ARN1) or 13-fold (ARN2) resistance to the drug with various degrees of cross-resistance to other anthracyclines, vinca alkaloids, and epipodophyllotoxins. Because the redox cycling of the quinone moiety of Adriamycin is known to produce oxidative stress, however, an analysis of glutathione (GSH) and related enzyme systems was undertaken in the wild-type and selected resistant cells. In ARN1 and ARN2, superoxide dismutase (SOD) and catalase activities were slightly decreased, intracellular GSH and GSH reductase were essentially unchanged, and total GSH peroxidase, glutathione S-transferase (GST), and DT-diaphorase activities were slightly elevated. In each case there was no stoichiometric relationship between degree of resistance and level of activity. GST isozymes were purified from each cell line by HPLC GSH affinity column chromatography. Two-dimensional gel electrophoresis and western blot immunoreactivity against a battery of GST isozyme polyclonal antibodies determined that both the resistant and sensitive cells expressed isozymes of the alpha, pi, and mu classes (alternative murine nomenclature: M1, M2, M3). Of significance, both ARN1 and ARN2 cell lines expressed a unique alpha subunit which was absent from the parent FLC cell line. This isozyme presumably accounted for the increased GSH peroxidase activity (cumene hydroperoxide as substrate) found in ARN1 and ARN2 and may play a role in the small incremental resistance to melphalan found for both resistant lines. Expression of the isozyme was not stoichiometric with respect to degree of resistance. The presence of this isozyme may contribute to the resistant phenotype or may be the consequence of a more general cellular response to oxidative stress.
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PMID:Glutathione, glutathione S-transferases, and related redox enzymes in Adriamycin-resistant cell lines with a multidrug resistant phenotype. 263 24

Lipoperoxidation has an important role in the normal processes of the cell-life. The induction is produced by oxygen-derived free radicals which attack the membrane phospholipids. Such an attack is modulated by an enzymatic protection system (superoxide dismutase, catalase, glutathione peroxidase, glutathione transferase) and by a non-enzymatic one (vitamin C, vitamin E...). In various pathologic conditions, a dispoise takes place between radical attack and antiradical protection. The place taken by lipoperoxidation in the ageing process seems to be fundamental. We report here the results of a study carried out in aged and sick patients who were given an antioxidant medicamentous combination made from Vitamin C, Vitamin E and Rutin. Our results evidence that such a synergistic combination does modify both enzymatic protection system and lipoperoxidation, this latter showing a decrease under treatment.
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PMID:[Lipid peroxidation in aged patients. Influence of an antioxidant combination (vitamin C-vitamin E-rutin)]. 273 16

An important biological function of glutathione (GSH) resides in the detoxication reactions mediated by enzymes such as glutathione-S-transferase (GSTs) and glutathione peroxidase (GPX). An increasing body of evidence implies that GSH and these enzymes play important roles in determining the sensitivity of tumours against cytotoxic drugs like quinone antibiotics, in particular adriamycin (Adr). In the present study, we have analysed the effects of cell-cycle on GSH and GSH-dependent enzymes in an attempt to explain cell-cycle specificity of these antileukaemic drugs which were shown to be involved in free-radical-type reactions. Determination of GSH, GST, GPX and superoxide dismutase in cell-cycle-enriched fractions of five different human myeloid leukaemia cell lines (KG1, K562, U937, ML-1 and ML-2) yielded results identical to those obtained in random cultures, which implies that neither GSH nor GSH-related enzymes are cell-cycle regulated. These findings argue against the presumption that cell-cycle specificity of cytotoxic drugs like Adr could be due to the glutathione-dependent metabolism in myeloid leukaemia cell lines.
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PMID:Influence of cell cycle on glutathione-S-transferase, selenium-dependent glutathione peroxidase, superoxide dismutase and glutathione levels in human myeloid leukaemia cell lines. 276 62

To obtain a profile of erythrocyte antioxidant defense potential during late fetal development, we studied selected antioxidant parameters in blood samples from 65 neonates with birth wt between 520 and 4210 g and from 12 healthy adults. Erythrocyte superoxide dismutase activity did not change significantly with maturation and no significant differences were observed among preterm infants grouped in increasing birth wt categories, term neonates, and adults. Erythrocyte catalase and glutathione peroxidase, as well as plasma vitamin E levels, showed highly significant positive correlations (p less than 0.001) with increasing fetal wt and gestational age; by term, CAT activity reached a level similar to the adult control group, but glutathione peroxidase activity, as well as plasma vitamin E levels, were markedly lower in all the preterm and in the term groups than in adults (p less than 0.01). Erythrocyte glutathione S-transferase activity showed a negative correlation with increasing gestational age (p less than 0.01) and the adult values were considerably lower than any of the neonatal levels (p less than 0.001). The role of glutathione S-transferase in erythrocyte metabolism remains obscure. Maturational changes in the activity of the red cell enzymes that were studied and in the plasma vitamin E level were apparent from about 31-36 wk of gestation, suggesting that the stimulation for these changes may have commenced from about 28-31 wk.
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PMID:Developmental patterns of antioxidant defense mechanisms in human erythrocytes. 279 51

Aerobic growth of Saccharomyces cerevisiae in the presence of CuSO4 (between 0.1 and 1 mM) caused a generalized induction of major enzyme activities involved in 'housekeeping' routes of oxygen metabolism (cytochrome oxidase, glutathione peroxidases and catalase) which were comparable to or higher than that observed with Cu,Zn-superoxide dismutase. Fumarase and glutathione transferase, tested as controls for oxygen-unrelated activities, were found to decrease under the same conditions. In the absence of oxygen, copper addition to yeast resulted in significant increases of Cu,Zn-superoxide dismutase and glutathione peroxidases and a slight increase of cytochrome oxidase, with catalase remaining undetectable irrespective of whether or not copper was present. Other metal ions tested (Mn2+, Co2+) were unable to produce such effects. It is concluded that copper has a general inducing effect on enzymes related to metabolism of oxygen and oxygen derivatives, which is mediated neither by formation of O2-. and H2O2 nor by interaction with copper-specific apoproteins. These results point to a general role of copper as regulator of the expression of major enzyme activities involved in biological oxygen activation.
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PMID:Oxygen-independent induction of enzyme activities related to oxygen metabolism in yeast by copper. 283 94

In a chronic study by the National Toxicology Program (NTP), dimethyl hydrogen phosphite (DMHP) caused neoplastic and nonneoplastic changes in the lungs and forestomach of F344/N rats following gavage administration for 2 years. The current investigation was designed to study the effect of a short-term exposure on a series of biochemical systems in target and nontarget tissues which may be involved in the metabolism and/or the manifestation of DMHP toxicity. Rats were treated daily with a dose similar to that used in the NTP study (200 mg/kg) for 4, 5, or 6 weeks. Two groups of animals were also treated for 4 weeks and then treatment was discontinued and the rats were allowed to recover for 1 or 2 weeks. An equal number of animals was treated similarly with the vehicle and used as control. The microsomal and soluble fractions were separated from liver, lungs, kidneys, forestomach, and glandular stomach from the 6-week treatment group. Another group of rats treated for 6 weeks was prepared for pathology examination of the lungs, forestomach, and glandular stomach. There was a significant increase in the weight of the forestomach of rats treated for 4, 5, or 6 weeks relative to control animals, while no significant difference was observed in the weight of liver, lungs, kidneys, and glandular stomach. The forestomach weight of rats treated for 4 weeks returned to the control value after 1 week of recovery. Microscopic examination of the forestomach of rats treated for 6 weeks revealed a thickened stratified squamous epithelium characterized by hyperplasia, hyperkeratosis, and subepithelial inflammation and edema. There were no microscopic changes in the lungs or glandular stomach of animals treated for 6 weeks. The activity of angiotensin converting enzyme in the serum of rats treated for 4, 5, or 6 weeks was significantly increased over that of control animals. The activity of this enzyme returned to near levels seen in the control animals after 1 week of recovery following 4 weeks of treatment. No treatment-related effect was observed in the activities of the microsomal p-nitroanisole demethylase, soluble glutathione S-transferase, and soluble superoxide dismutase in the five tissues studied. There was a significant increase in the level of nonprotein soluble sulfhydryls in the forestomach but in no other tissue of rats treated for 6 weeks. Also the activity of soluble carboxylesterase was significantly reduced in the lungs and forestomach, but not in any other tissue of the 6-week-treated rats.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Pathological and biochemical effects of dimethyl hydrogen phosphite in Fischer 344 rats. 283 31

Glutathione levels were measured in 30 human lung cancer lines. Lower levels were detected in cell lines derived from small cell lung cancer specimens compared to non-small cell lines (mean 42 vs. 130 nmol mg-1 protein, P = 0.005). However, no difference were detected between cell lines derived from previously untreated patients, compared to those derived from patients who had received chemotherapy. Non-small cell lines were found to have increased activity of 4 detoxification enzymes compared to small cell lines, although these differences did not reach statistical significance: glutathione transferase activity (69 vs. 36 units, P = 0.137), glutathione reductase (139 vs. 82 units, P = 0.05), gamma-glutamyl transpeptidase (9.39 vs. 3.03 units, P = 0.072) and superoxide dismutase (20 vs. 13.6 units, P = 0.137). As the cell lines exhibit a similar chemosensitivity pattern to that observed in clinical practice, these differences in glutathione and detoxification enzyme levels may prove to be important indicators of intrinsic drug resistance often seen in patients with non-small cell lung cancer.
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PMID:Glutathione and related enzyme activity in human lung cancer cell lines. 290 63

Target organ-specific estrogen-induced DNA adducts were previously shown to precede renal carcinogenesis in Syrian hamsters. Because estrogens induced these DNA modifications, but were not part of the adduct structure, free radical activation of endogenous electrophiles was postulated as a mechanism of tumor induction by estrogens. In the present study, the activities of enzymes which detoxify reactive intermediates were studied in liver and kidney of hamsters treated with estradiol for 1, 2, and 4 mo and in untreated controls. These studies were done to detect oxidative stress in the target organ of carcinogenesis. In the estrogen-exposed hamster kidney (1, 2, and 4 mo), activities of glutathione peroxidases I and II were significantly increased. The activity of catalase was decreased compared to those in untreated controls. In livers which are not the target organ of carcinogenesis, treatment of hamsters with estrogen for 1, 2, and 4 mo resulted in changes of activities of glutathione peroxidases I and II and catalase, which were opposite to the pattern found in the kidney. Activities of superoxide dismutase, glutathione reductase, glucose-6-phosphate dehydrogenase, gamma-glutamyl transpeptidase, and glutathione transferase in estradiol-treated hamster liver and kidney did not differ significantly from those in either liver or kidney of untreated age-matched controls. Fluorescent products of lipid peroxidation more than doubled in the kidney, but not in the liver of hamsters treated with estradiol for 1 mo. It is concluded that the increases in glutathione, in the activity of glutathione peroxidase, and in products of lipid peroxidation in the kidneys of hamsters treated chronically with estrogen all point towards elevated levels of oxidative stress.
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PMID:Changes in activities of free radical detoxifying enzymes in kidneys of male Syrian hamsters treated with estradiol. 292 1

Photoemissive excited species are produced by the horseradish peroxidase (HRP)-catalyzed oxidation of reduced glutathione (GSH), without exogenously added hydroperoxide under aerobic conditions. The emitted low-level chemiluminescence consisted of two phases. Light emission occurred at wavelengths beyond 610 nm (greater than or equal to 90% intensity), indicative of singlet oxygen 1O2. Deuterium oxide enhanced photoemission 4.4-fold. Ascorbate inhibited chemiluminescence completely. In the absence of GSH or when GSH was replaced by the disulfide, no red chemiluminescence was observed. The glutathionyl radical GS. is most likely to be involved in both phases of light emission. Further, the superoxide radical plays a role, as substantiated by the inhibitory effect of superoxide dismutase. Both phases of photoemission were abolished by glutathione peroxidase; thus hydroperoxides are regarded as essential intermediates for the formation of excited species. Catalase abolished phase I and did not affect phase II. In contrast, glutathione S-transferase 1-2 (showing peroxidase activity towards organic hydroperoxides but not towards H2O2) inhibited phase II, whereas phase I was still present. Glutathione sulfonate and the disulfide GSSG were detected as oxidation products from GSH under conditions where phase II chemiluminescence was observed. HRP Compound III accumulated during the reaction. It is concluded that phase I is dependent on exogenously added or endogenously generated H2O2, whereas phase II does not require H2O2 but an organic peroxy species. A mechanism based on chain reactions involving oxygen addition to the thiyl radical is proposed. Sulfenyl peroxy species are suggested as transient intermediates in reactions finally leading to the generation of excited states such as singlet molecular oxygen.
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PMID:Excited species generation in horseradish peroxidase-mediated oxidation of glutathione. 301 81

In an attempt to characterize metabolism enzymes of the estrogen-induced kidney tumor in male Syrian hamsters, the activities of enzymes involved in drug and glutathione metabolism were determined in tumor tissue. Kidney tumors were induced in male Syrian hamsters by treatment with estradiol for 8 months. Cytochrome P-450 and cytochrome b5 concentrations in tumors were below detectable levels. However, when cytochrome P-450-mediated oxidation was analyzed by product formation assays, the oxidation of E-diethylstilbestrol to diethylstilbestrol-4',4"-quinone by tumor microsomes was 10-20% of the rate found in control microsomes. In kidney tissue surrounding estrogen-induced tumors, cytochrome P-450 and b5 contents were 50-60% less than those in untreated kidney. Activities of reducing enzymes of drug metabolism (cytochrome P-450, cytochrome b5 and NADH:cytochrome c reductases), glutathione metabolism enzymes (glutathione peroxidase, glutathione transferase, glutathione reductase, and gamma-glutamyl transpeptidase), and free radical scavenging enzymes (superoxide dismutase, catalase, and quinone reductase) in tumor were significantly lower than in untreated kidney tissue. The activities of these enzymes in renal tumor surrounding tissue were between those observed in tumor and control kidney. Glucose-6-phosphate dehydrogenase activity was increased by 50% in surrounding tissue and 430% in tumor compared to values in untreated controls. The decreased enzyme activity levels in hormone-exposed tissue surrounding tumors likely represented an adaptation of this tissue to the neoplastic environment induced by chronic estrogen treatment.
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PMID:Characterization of drug metabolism enzymes in estrogen-induced kidney tumors in male Syrian hamsters. 304 47

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