Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.5.1.47 (cysteine synthase)
 625 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

A number of metabolizing systems are measured in normal, preneoplastic and neoplastic mouse mammary tissues derived under three different conditions. These biochemical functions are considered to be important in the activation and detoxification of carcinogens and other xenobiotics and have been linked to the process of rat liver hepatocarcinogenesis. The cytochrome P450-dependent enzyme aminopyrine N-demethylase, consistently depressed in hepatocarcinogenesis models in mouse and rat, does not show a significant change among normal, preneoplastic and neoplastic mammary tissues. Glutathione and the enzymes of glutathione metabolism and utilization (e.g. glutathione-S-transferases and gamma-glutamyl transferase), active in the detoxification of xenobiotics, show no significant differences in carcinogen-induced tumors or in their homologous preneoplasias compared to control tissue. There is no increase in the anionic glutathione-S-transferase, a principal marker in rat hepatocarcinogenesis. The only observed biochemical change was a significant decrease in gamma-glutamyl cysteine synthetase the glutathione synthetic enzyme, in the carcinogen-induced preneoplastic and neoplastic line compared to control. Also inorganic glutathione peroxidase was lower in the preneoplastic, but not in the neoplastic tissues.
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PMID:Biochemical characteristics of mouse mammary tissues, preneoplastic lesions and tumors. 257 78

The effects of the synthetic dibromo-pyrethroid insecticide deltamethrin on some hepatic phase I and II enzyme activities were studied in rat liver. The animals were treated with daily doses of 5 and 10 mg/kg of both pure insecticide or its commercial formulation (Decis), administered i.p. in corn oil for 7 days. The following enzyme activities were studied: NADPH-cytochrome-P450 reductase, aryl-hydrocarbon hydroxylase, aminopyrine N-demethylase, glutamyl cysteine synthetase, glutathione S-transferase, glutathione peroxidase, peroxisomal acyl-CoA oxidase, catalase, and urate oxidase. Both deltamethrin and its commercial formulation were effective in modifying the activities of several of these hepatic xenobiotic-metabolizing enzymes. However, some differences in enzyme modifications were found between treatment with pure or commercial deltamethrin, the latter being more active. This effect could be ascribed to additives, solvents, and chemical intermediates present in the Decis formulation. These results suggest that exposure to this deltamethrin commercial formulation could be more dangerous than exposure to deltamethrin alone, both in terms of its hepatotoxicity and/or alterations in the hepatic biotransformation of other occupational/environmental xenobiotics.
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PMID:Studies on hepatic xenobiotic-metabolizing enzymes in rats treated with insecticide deltamethrin. 747 74

Activities of enzymes that protect the retina from reactive oxygen species were investigated in experimentally diabetic rats and experimentally galactosemic rats, two animal models known to develop vascular lesions consistent with diabetic retinopathy. Diabetes or experimental galactosemia of 2 months duration significantly decreased the activities of glutathione reductase and glutathione peroxidase in the retina while having no effect on the glutathione synthesizing enzymes glutathione synthetase and gamma-glutamyl cysteine synthetase. Activities of two other important antioxidant defense enzymes-superoxide dismutase (SOD) and catalase-also were decreased (by more than 25%) in retinas of diabetic rats and galactosemic rats. Administration of supplemental antioxidants, vitamins C and E, for the 2 months prevented the diabetes-induced impairment of antioxidant defense system in the retina. In experimentally galactosemic rats, the supplemental antioxidants were not as effective: SOD activity was normalized, but the enzymes of the glutathione redox cycle were only partly restored, and the subnormal catalase activity was unaffected. Diabetes or experimental galactosemia results in significant impairment of the antioxidant defense system in the retina, and exogenous antioxidant supplementation can help alleviate the subnormal activities of antioxidant defense enzymes.
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PMID:Abnormalities of retinal metabolism in diabetes or experimental galactosemia. IV. Antioxidant defense system. 901 21

Time-dependent alterations in glutathione (GSH) concentration and the activities of several key enzymes of GSH metabolism were studied in a rat model of experimental Fanconi syndrome induced by i.p. injection of sodium maleate (400 mg/kg BW). The changes in the parameters tested were monitored 0, 2, 4, and 12 h after sodium maleate administration. A significant decrease in renal GSH level was observed 2 and 4 h after sodium maleate treatment (27% and 38% of control values, respectively). The renal GSH depletion did not appear to be due to the decreased production rate or to an increased degradation of the tripeptide. This suggestion is based on the findings that the activities of the GSH synthesis (gamma-glutamyl cysteine synthetase and glutathione reductase) and those of the catabolic pathways (gamma-glutamyl transpeptidase) were unaltered at the same time points. The unchanged activity of gamma-glutamyl transpeptidase also suggests preserved luminal membrane integrity in experimental Fanconi syndrome. The decreased activity of glutathione peroxidase, which utilizes GSH as a cosubstrate in the course of inactivation of free radicals, in the first hours after treatment could facilitate lipid peroxidation reactions in this model of acute renal failure. The observed changes in all parameters tested were transient, with recovery to baseline levels in a period of 12 h after sodium maleate administration. At the same time a pronounced functional impairment still existed. The beneficial effect of fast recovery of renal GSH level on the functional and morphological restitution in experimental Fanconi syndrome is suggested.
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PMID:Time course of renal glutathione levels in experimental Fanconi syndrome: an enzyme-based approach. 915 54

We investigated the role of glutathione (GSH) and antioxidant enzymes in menadione-resistance by using K300 cells (menadione-resistant cells) and parental P19 cells (menadione-sensitive cells). We found that acquisition of resistance was associated with elevations in glutathione content and DT-diaphorase activity. The activity of glutathione S-transferase (GST) was significantly decreased, while the activities of glutathione peroxidase, glutathione reductase, catalase, and superoxide dismutase in K300 cells were maintained at the same levels as compared to the parental P19 cells. Using reactive oxygen species (ROS)-sensitive fluorescence dye 2,7- dichlorodihydrofluorescein diacetate (DCFH/DA), we demonstrated that K300 cells are characterized by reduced cellular ROS as compared to the parental P19 cells during menadione's action. Menadione depleted glutathione to a small extent in the K300 cells, but a rapid depletion was observed in P19 cells. Pretreatment of K300 cells with dicumarol, a DT-diaphorase inhibitor, or buthionine sulfoximine (BSO), an inhibitor of gamma-glutamyl cysteine synthase, sensitized the cells to menadione. BSO treatment was less effective than dicumarol treatment in reversing menadione resistance in K300 cells. These results strongly support the belief that DT-diaphorase plays a central role in protecting cells against menadione-induced oxidative stress by decreasing the ROS formation.
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PMID:The roles of glutathione and antioxidant enzymes in menadione-induced oxidative stress. 1111 72

The mechanisms by which acute administration of methapyrilene, an H(1)-receptor antihistamine causes periportal necrosis to rats are unknown. This study investigated the role of the hepato-biliary system in methapyrilene hepatotoxicity following daily administration of 150 mg/kg per day over 3 consecutive days. Biliary metabolites of methapyrilene were tentatively identified. In male Han Wistar rats administration of methapyrilene significantly increased hepatic reduced glutathione (GSH) to 140% of control levels 24 h following the last dose. There were no significant changes in the activities of glutathione-related enzymes, glutathione peroxidase (GPx) and reductase (GSH), glutathione S-transferase (GST), and gamma-glutamyl cysteine synthetase (gamma-GCS) over 3 days of methapyrilene administration. Methapyrilene treatment resulted in no significant increase in excretion of biliary oxidized glutathione (GSSG), a sensitive marker of oxidative stress in vivo, following the third dose. [3H]Methapyrilene-derived radioactivity was detected in bile, to a greater extent than in feces, indicating that methapyrilene and/or metabolites underwent enterohepatic recirculation. Cannulation and exteriorization of the bile duct (to interrupt enterohepatic recirculation) afforded some protection against the hepatotoxicity, assessed by clinical chemistry and histopathology. Liquid chromatography-mass spectrometry (LC-MS) analysis of bile indicated the presence of unmetabolized methapyrilene, methapyrilene O-glucuronide and desmethyl methapyrilene O-glucuronide. These data demonstrate that acute methapyrilene hepatotoxicity in vivo is not a consequence of GSH depletion, or oxidative stress, but that enterohepatic recirculation of biliary metabolites may be important. Progressive exposure to non-oxidizing, reactive metabolic intermediates may be responsible for hepatotoxicity.
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PMID:Methapyrilene hepatotoxicity is associated with increased hepatic glutathione, the formation of glucuronide conjugates, and enterohepatic recirculation. 1113 66

The apparent anticarcinogenic effect of cruciferous vegetables found in numerous epidemiological and experimental studies has been associated with their influence on phase I and phase II metabolising enzymes as well as on the antioxidant status. In the present study we investigated the effect of administration of a Brussels sprouts extract on the expression at the mRNA level and/or catalytic activity in rat liver of three phase I enzymes [cytochrome P450-1A2 (CYP1A2),-2B1/2 (CYP2B1/2) and-2E1 (CYP2E1)] and two phase II enzyme [NADPH:quinone reductase (QR) and glutathione S-transferase pi 7 (GSTpi)], all previously suggested to be induced by vegetables. We also examined the activity and/or expression of several important antioxidant enzymes: glutathione peroxidase (GPx), catalase and gamma-glutamyl-cysteine synthetase (GCS) and the activity of the repair enzyme 8-oxoguanine DNA glycosylase (OGG1). QR, GPx and catalase activity was also assessed in the kidneys. In order to examine a possible effect of the Brussels sprouts related to oxidative stress, we measured oxidative DNA damage in terms of 7-hydro-8-oxo-2'-deoxyguanosine (8-oxodG) and lipid peroxidation in terms of malondialdehyde (MDA) formation in the liver. Oral administration of an aqueous Brussels sprouts extract for 4 days was found to induce the expression of GST 1.3-fold (P < 0.05) and the activity of QR 2.6-fold in rat liver (P < 0.05). No significant differences were seen in the expression of the phase I enzymes. No differences in antioxidant enzyme activity/expression or OGG1 activity were observed. In a second experiment, administration of the Brussels sprouts extract for 3 or 7 days was found to increase the level of 8-oxodG in rat liver from 0.75 to 0.97 per 10(5) dG and from 0.81 to 0.97 per 10(5) dG, respectively (P < 0.05). No effects on MDA levels were found. The present results support the data obtained in several studies that consumption of cruciferous vegetables is capable of inducing various phase II enzyme systems. However, the observed increase in oxidative DNA damage raises the question of whether greatly increased ingestion of cruciferous vegetables is beneficial.
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PMID:Effects of a Brussels sprouts extract on oxidative DNA damage and metabolising enzymes in rat liver. 1134 82

We used mice with a targeted disruption in g-glutamyl transpeptidase (GGT-deficient mice) to study the role of glutathione (GSH) in protection against oxygen-induced lung injury. These mice had reduced levels of lung GSH and restricted ability to synthesize GSH because of low levels of cysteine. When GGT-deficient mice were exposed to 80% oxygen, they developed diffuse pulmonary injury and died within eight days. Ten of 12 wild-type mice were alive after 18 days. Administration of N-acetylcysteine (NAC) to GGT-deficient mice corrected GSH values and prevented the development of severe pulmonary injury and death. Oxygen exposure induced an increase in lung GSH levels in both wild-type and GGT-deficient mice, but induced levels in the mutant mice were <50% of those in wild-type mice. Cysteine levels were approximately 50-fold lower than GSH levels the lungs of both wild-type and GGT-deficient mice. Levels of lung RNA coding for the heavy subunit of g-glutamyl cysteine synthetase rose three- to fourfold after oxygen exposure in both wild-type and GGT-deficient mice. In contrast, oxygen exposure failed to provoke increases in glutathione synthetase, glutathione peroxidase, glutaredoxin, or thioredoxin.
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PMID:Oxygen-induced pulmonary injury in gamma-glutamyl transpeptidase-deficient mice. 1197 99

The protective effects of glutathione monoester (GME) on buthionine sulfoximine (BSO)-induced glutathione (GSH) depletion and its sequel were evaluated in rat erythrocyte/erythrocyte membrane. Animals were divided into three groups (n=6 in each): control, BSO and BSO+GME group. Administration of BSO, at a concentration of 4 mmol/kg bw, to the albino rats resulted in depletion of blood GSH level to about 59%. GSH was elevated several folds in the GME group as compared to the control (P<0.05) and BSO (P<0.001) groups. Decreased concentration of vitamin E was found in the erythrocyte membrane isolated from BSO-administered animals. Antioxidant enzymes, catalase (CAT), superoxide dismutase (SOD) and glutathione peroxidase (GPX) were also found to be altered due to BSO-induced GSH depletion in blood erythrocytes. The SOD and CAT activities in BSO group were significantly lower (P<0.001) than the other groups. Lipid peroxidation index and malondialdehyde (MDA) levels in erythrocytes and their membranes were increased to about 45% and 40%, respectively. The activities of Ca2+ ATPase, Mg2+ ATPase and Na+K+ ATPase were lower than those of control group (P<0.05), whereas the activities of these enzymes were found to be restored to normal followed by GME therapy (P<0.05). Cholesterol, phospholipid and C/P ratio and some of the phospholipid classes like phosphatidylcholine (PC), lysophosphatidylcholine (LPC) and sphingomyelin were significantly (P<0.05) altered in the erythrocyte membranes of BSO-administered rats compared with those of control group. These parameters were restored to control group levels in GME-treated group. Oxidative stress may play a major role in the BSO-mediated gamma glutamyl cysteine synthetase (gamma-GCS) inhibition and hence the depletion of GSH. In conclusion, our findings have shown that antioxidant status decreased and lipid peroxidation increased in BSO-treated rats. GME potentiates the RBC and blood antioxidant defense mechanisms and decreases lipid peroxidation.
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PMID:Modulation of rat erythrocyte antioxidant defense system by buthionine sulfoximine and its reversal by glutathione monoester therapy. 1499 Mar 42


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