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: EC:6.3.2.3 (glutathione synthetase)
678 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

(1) Oxygen uptake and lactate production of different strains of ascites tumor cells were assayed after exposure to an extracellular photochemical system known to produce reactive oxygen derivatives. The various cells tested showed differential sensitivity to the treatment, ranging from nearly full inactivation of Ehrlich cells to nearly full resistance of Yoshida cells. (2) Glucose plus succinate added after the treatment reestablished basal oxygen uptake capacity suggesting that the cell membrane was the primary site of damage. This was confirmed by dye-permeabilization and protein leakage in sensitive cells. (3) H2O2 was shown to be the only relevant oxygen derivative in the production of cell damage: catalase was the only externally added agent that protected sensitive cells, and H2O2 (congruent to 10(-3) M) had the same effects as the photochemical treatment. (4) While the absence of catalase is a feature common to all tumors tested, sensitivity to H2O2 appears to be related to cellular levels of glutathione peroxidase and of its subsidiary enzymes glucose-6-phosphate dehydrogenase, glutathione reductase and glutathione synthetase.
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PMID:Differential sensitivity of tumor cells to externally generated hydrogen peroxide. Role of glutathione and related enzymes. 55 3

Glutathione and its related enzymes were measured for normal and cataractous human lenses. Glutathione decreased progressively with the development of cataracts. This decrease was more pronounced in the nucleus than in the capsule-epithelia of cataractous lenses. Glutathione reductase in nuclear extracts was relatively unchanged during cataract progress, while glutathione synthetase was significantly low in the advanced stages of cataracts. gamma-Glutamylcysteine synthetase was not measurable in the nuclei of cataractous lenses.
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PMID:Glutathione and glutathione-related enzymes in human cataractous lenses. 194 85

This investigation examined many parameters during the course of early development of naphthalene-induced cataract in a time span of 0 to 79 days of treatment. Feeding naphthalene daily to Black-Hooded rats resulted in gradual progressive development of cataract. The first faint opacities were detectable after 7 days. Free soluble total glutathione (oxidized and reduced) of these lenses was shown to gradually decrease to a maximum loss of about 20%, a value reached by day 30 of treatment. No activity loss of either enzyme required for glutathione synthesis (gamma-glutamylcysteine synthetase or glutathione synthetase) was observed in homogenates of naphthalene versus control lenses. There was also neither impairment of [35S]-L-cystine uptake nor of [35S]-glutathione synthetic capacity in lenses cultured from rats after 12, 24 or 36 days of naphthalene feeding when compared to control lenses. Hence, glutathione loss cannot be explained by a damaged glutathione synthesis system. Progressive activity loss of glutathione peroxidase and glutathione reductase was observed. The loss of glutathione peroxidase activity was especially remarkable. Thus, the defense system against oxidative damage is impaired and may be a significant factor in naphthalene-induced cataract of the rat.
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PMID:Glutathione synthesis and glutathione redox pathways in naphthalene cataract of the rat. 196 27

A number of enzyme systems are important in the protection of cells from chemical-induced oxidative damage. Little is known of the relative importance of these enzymes during postnatal development and its is possible that changes in their activity during this period may alter the susceptibility to toxic agents. This study investigated the activities of glutathione peroxidase, glutathione reductase, catalase, superoxide dismutase, gamma-glutamyl-cysteine synthetase and glutathione synthetase in the liver, lung and kidney of postnatal and adult mice. The first 3 postnatal weeks are characterized by marked changes in the activities of enzymes that protect against oxidative stress (glutathione peroxidase/reductase, catalase and superoxide dismutase). Overall, the activity of these enzymes suggests that the mouse has a higher level of protection against peroxides at various stages during this period but lower capacity to detoxify superoxide anions. The activities of the glutathione-synthetic enzymes (gamma-glutamylcysteine synthetase and glutathione synthetase) were significantly lower in the kidney of the postnatal mice, but the liver and lung had levels similar to those in the adult. Glutathione turnover in the liver of 2-week-old mice was not different from that in adults. The results indicate a complex pattern of development in the activities of detoxification enzyme systems during postnatal development.
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PMID:Postnatal development of enzyme activities associated with protection against oxidative stress in the mouse. 196 50

The metabolism of glutathione and activities of its related enzymes were studied in erythrocytes from patients with non-insulin-dependent diabetes mellitus (NIDDM). A decrease in the levels of the reduced form of glutathione and an increase in the levels of glutathione disulfide were found in erythrocytes of diabetics. To elucidate these changes in the levels of glutathione, synthetic and degradative processes were studied. The activity of gamma-glutamylcysteine synthetase was significantly lower in diabetics than in normal controls. The activity of glutathione synthetase of each group was the same. The rate of outward transport of glutathione disulfide in diabetics decreased to approximately 70% of that of normal controls. The activity of glutathione reductase decreased in diabetics. These data suggest that the decrease in the levels of reduced form of glutathione in erythrocytes of diabetics is brought about by impaired glutathione synthesis and that the increase in the levels of glutathione disulfide is brought about by the decreased transport activity of glutathione disulfide through the erythrocyte membrane together with a decrease in the activity of glutathione reductase. These data also suggest that the impairment of glutathione metabolism weakens the defense mechanism against oxidative stress in erythrocytes of diabetics.
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PMID:Impairment of glutathione metabolism in erythrocytes from patients with diabetes mellitus. 256 61

The activities of five enzymes of glutathione metabolism were determined in lenses from cataract-resistant and cataract-prone (Emory) mouse variants at three different ages (5 weeks, 10 weeks and 6 months). The enzymes included those required for glutathione synthesis, gamma-glutamylcysteine synthetase and glutathione synthetase, as well as glutathione-S-transferase, glutathione peroxidase and glutathione reductase. The differences in the activities of the five enzymes in the two mouse variants were not remarkable at any of the three ages. Activity of each enzyme was noted to be in excess of the preceding one in this integrated metabolic pathway, with the exception of glutathione reductase. gamma-Glutamylcysteine synthetase appears to be the pacesetting enzyme of this metabolic scheme in the mouse lens. The activity of each enzyme was compared with that earlier reported for human, rabbit and dog lenses.
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PMID:Glutathione metabolism in lenses of Emory and cataract-resistant mice: activity of five enzymes. 287 Aug 75

Two modes of killing of Escherichia coli by hydrogen peroxide can be distinguished. Mode-one killing is maximal at 1-2 mM; at higher concentrations the killing rate is approximately half-maximal and is independent of H2O2 concentration but first order with respect to exposure time. Mutagenesis and induction of a phage lambda lysogen are similarly affected by H2O2 concentration, with reduced levels of response above 1-2 mM-H2O2. Mutagenesis is not affected by inactivation of umuC. Mode-one killing requires active metabolism during the H2O2 challenge and it results in sfiA-independent filamentation of both cells that survive and those that are killed by the challenge. This mode of killing is enhanced in xth, polA, recA and recB strains; however, it is unaffected by mutations in the nth, uvrA, uvrB, uvrC, uvrD, rep, gyrA, htpR and rel loci. Mode-one killing is normal in strains totally lacking catalase activity (katE, katG), glutathione reductase (gor) or glutathione synthetase (gshB), but enhanced in a strain lacking NADH dehydrogenase (ndh). Mode-one killing is accelerated by the presence of CN- or by an unidentified function that is induced by anoxic growth and is under the control of the fnr locus. A strain carrying both xth and recA mutations and certain polA mutants appear to undergo spontaneous mode-one killing only under aerobic conditions. Taken together, these observations imply that mode-one killing results from DNA damage that normally occurs at a low, non-lethal level during aerobic growth. Models for the resistance to mode-one killing at dose above 1-2 mM-H2O2 will be discussed. Mode-two killing occurs at high concentrations of H2O2 and longer times. It does not require active metabolism, and cells that are killed do not filament, although survivors demonstrate a dose-dependent growth lag followed by a period of filamentation. Mode-two killing is accompanied by enhanced mutagenesis, but strains with DNA repair defects were not observed to be especially sensitive to this mode of killing.
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PMID:Toxicity, mutagenesis and stress responses induced in Escherichia coli by hydrogen peroxide. 330 21

The effects of long term intake of dietary alcohol on myocardial glutathione metabolism and taurine content were studied in rats. Alcohol, comprising more than 30% of the dietary calorie content, was administered to male CFY rats for six weeks. Compared with the controls, the left ventricle of the alcohol treated animals had an increased taurine content (18.4(2.6) vs 13.1(2.5) mumol X g wet weight-1) and a slightly, but not significantly, decreased reduced glutathione content. To assess the glutathione metabolism in the myocardium, the activities of glutathione reductase, glutathione peroxidase, glutathione-S-transferase, gamma-glutamylcysteine synthetase, and glutathione synthetase were measured. Significant increases were found in the activities of glutathione reductase (0.65(0.03) U.g wet weight-1 in the controls and 0.80(0.05) U.g wet weight-1 in the alcohol treated rats) and glutathione-peroxidase after six weeks of alcohol ingestion. Only slight, non-significant changes were found for the other enzymes investigated. It is thus apparent that in the myocardium of rats treated long term with ethanol the previously observed enhanced lipoperoxidation is not necessarily associated with severe glutathione depletion, and an increase in the activity of glutathione reductase might be responsible, at least in part, for the preservation of glutathione.
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PMID:Effects of long term alcohol ingestion on glutathione metabolising enzymes and taurine contents in the myocardium of rats. 380 27

Several biochemical parameters were examined in clear dog and rabbit lenses as functions of age, and in posterior subcapsular cataracts in the Alaskan malamute. Tabulated data include soluble protein, reduced sulfhydryl content of soluble protein, reduced glutathione, water, and activity of five enzymes of glutathione metabolism. The enzymes include the glutathione biosynthesis system consisting of gamma-glutamylcysteine synthetase and glutathione synthetase, as well as glutathione peroxidase, glutathione reductase and glutathione-S-transferase. Each enzyme, acting last in a sequential reaction of either two or three reactions, was in excess activity over the preceding enzyme(s) in every case but one. In the exception, the ratio of glutathione reductase to glutathione peroxidase activity was about 1:600 and 1:155 in the dog and rabbit lens, respectively.
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PMID:Glutathione metabolism in lenses of dogs and rabbits: activities of five enzymes. 613 32

Pure fetal blood was obtained by direct-vision fetoscopy from 66 fetuses at 17-24 weeks gestation. The concentration of GSH and the activities of the enzymes gamma-glutamylcysteine synthetase (GCS), glutathione synthetase (GS), glutathione reductase (GR) and glutathione peroxidase (GPx) were analysed by established techniques to find the normal ranges for this gestational age. The ranges were relatively narrow and could serve as reference values for the prenatal diagnosis of defects in the GSH metabolism of erythrocytes. The results were compared with those obtained from 38 normal adults and with published values on neonatal blood. In the case of GR a comparison was also made with maternal blood. In comparison with adults, fetal erythrocytes showed higher GSH concentration and GCS activity and lower GS and GPx activities. This pattern resembled that found in neonatal erythrocytes except for the GCS activity, which was higher in the fetal cells. Furthermore the differences between fetal and adult erythrocytes were more pronounced than those between neonatal and adult cells. The GR activity of fetal erythrocytes was also higher than that of either normal adult or maternal blood. This difference, however, was reduced to an insignificant level when the enzyme was activated in vitro by flavin adenine dinucleotide (FAD) because of a relatively low per cent activation of the GR in the fetal erythrocytes.
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PMID:Normal glutathione content and some related enzyme activities in the fetal erythrocytes. 614 50


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