Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C1260386 (GSH)
 38,102 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Following Northern analysis, GGT mRNA was found predominantly within the caput epididymides and kidney. The size of mRNAs for kidney, caput, corpus, and ductus deferens were 2.2, 2.3, 2.2, and 2.3 kb, respectively, whereas cauda showed a doublet of 2.2 and 2.3 kb. GGT transpeptidation and hydrolytic activity within epididymal luminal fluids collected by micropuncture showed caput = corpus greater than cauda and corpus greater than caput greater than cauda, respectively. Caput luminal GGT transpeptidation activity was significantly inhibited by serine-borate and was optimal at pH 8.0. The calculated Km and Vmax values for hydrolysis of GSH by caput luminal GGT were 0.06 microM and 2.19 nmoles/min/microliters luminal fluid at pH 8.5 compared to 0.49 microM and 0.49 nmoles/min/microliters luminal fluid, respectively, at the physiological pH 6.5 of caput fluid. These studies would suggest that the epididymis can control the activity of luminal GGT by pH. Lower Km (0.12 microM) and higher Vmax (1.13 nmoles/min/microliters luminal fluid) values were also calculated when GSSG was used compared to GSH. Results from Triton X-114 partitioning experiments suggest that luminal GGT probably exists in both membrane bound and nonmembrane bound forms. Western blot analysis of proteins within epididymal luminal fluids revealed both subunits of GGT in all epididymal regions studied. However, two lower molecular bands, approximately 22 kDa and 21 kDa, were also observed in cauda fluid. It is suggested that as GGT is transported along the epididymal duct it undergoes degradation, which accounts for its loss of activity in the distal epididymal regions.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Expression and activity of gamma-glutamyl transpeptidase in the rat epididymis. 167 40

Starvation for 24 h causes a striking fall in glutathione content from 3.19 +/- 0.27 to 1.88 +/- 0.14 (X +/- SEM) mumol/g tissue and of GGT activity from 31.75 +/- 4.17 to 19.49 +/- 3.13 (X +/- SEM) nmol/min/mg protein in the homogenate from whole mucosa of the upper small intestinal segments. This was associated with a significant increase in GSH-Px activity and the content of lipid peroxides (measured by the thiobarbituric assay). On semi-synthetic iron-supplemented diet the activities of GSH-T and GGT were significantly decreased as compared with crude diet. On semisynthetic iron-depleted diet GSH-T and GGT activities were further depressed, but this was accompanied with an additional depression of GSH, glutathione reductase (GSSG-R), and glutathione peroxidase (GSH-Px) activities and lipid peroxide concentrations. Food deprivation significantly lowers the mucosal GSH-content and could lead to a destabilization of this system presumably by increased oxidative stress. As compared to normal "crude" diet, semisynthetic diets and oral iron depletion have been shown to cause a depression of the intestinal GSH system. As a consequence of these effects, the resistance of the small intestinal mucosa toward exogeneous dietary toxins might be reduced.
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PMID:Glutathione and its related enzymes in the small intestinal mucosa of rats: effects of starvation and diet. 256 68

Chronic ethanol feeding increases hepatotoxicity of drugs, such as acetaminophen, which form electrophilic metabolites. Availability of glutathione (GSH) is important in preventing liver damage from reactive metabolites. Chronic ethanol feeding has been reported to increase turnover of hepatic GSH in rats. The results of the present study show that the total hepatic efflux of GSH was increased from 5.95 +/- 0.42 nmoles/min/g liver (control) to 9.96 +/- 0.57 nmoles/min/g (P less than 0.001) in isolated perfused livers from rats 24 hr after withdrawal from chronic ethanol feeding. The increase in total efflux of GSH was due to a significant increase in sinusoidal GSH efflux from 4.76 +/- 0.49 nmoles/min/g liver in control rats to 9.07 +/- 0.47 nmoles/min/g (P less than 0.001) in ethanol-fed rats, while biliary efflux decreased slightly, 1.20 +/- 0.11 (control) vs 0.89 +/- 0.31 (ethanol). The increase in cellular efflux of GSH was similar in magnitude to the increase in hepatic GSH turnover that we reported previously. Biliary GSSG was similar in both groups of animals. Hepatic GGT activity was increased slightly, but not significantly, whereas renal GGT activity was similar in ethanol-fed rats. Hepatic GSH and GSSG levels were also similar. The increase in turnover of hepatic GSH in rats withdrawn from chronic ethanol feeding was most likely due to increased cellular efflux of GSH. This finding suggests that chronic ethanol feeding may increase cellular requirements for GSH, although the mechanism remains unknown. This alteration in GSH turnover may have important consequences for detoxification of xenobiotics or their metabolites by the liver.
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PMID:Increased hepatic efflux of glutathione after chronic ethanol feeding. 287 42

Glutathione (GSH)-driven lipid peroxidation (LPO) in vitro was catalyzed by gamma-glutamyltranspeptidase (GGT; EC 2.3.2.2.). The reaction required iron, iron chelators and oxygen, was accelerated by glycylglycine (gly)2, a GGT enhancer, and was inhibited by the GGT inhibitors serine--borate and acivicin. LPO occurred at rat plasma concentrations of GSH and transferrin, and in the presence of putative physiological chelators such as citrate and ADP. GSH-driven LPO was inhibited by butylated hydroxytoluene, but not by catalase, peroxidase or superoxide dismutase. These results suggest that metabolism of GSH initiated by GGT may lead to oxidative damage. Such oxidative damage may be induced in vivo by GSH in proximity to GGT-rich preneoplastic foci in rat liver.
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PMID:Glutathione metabolism by gamma-glutamyltranspeptidase leads to lipid peroxidation: characterization of the system and relevance to hepatocarcinogenesis. 809 45

Our laboratory previously has shown apparent carrier-mediated glutathione (GSH) uptake across the blood-brain barrier (BBB) in two animal models. In the present study, when Xenopus oocytes were injected with bovine brain capillary mRNA expression of intact GSH, uptake was observed after 3 days. When total mRNA was converted to cDNA and subfractionated with subsequent cRNA injection into oocytes, three distinct fractions (5, 7-8, and 11-12) expressed carrier-mediated intact GSH transport. Northern blot analysis established the presence of RcGshT, the previously cloned sodium-independent hepatic canalicular transporter, only in fraction 5. GSH transport activity in fraction 7 was significantly inhibited by replacement of NaCl with choline chloride and by sulfobromophthalein-GSH, neither of which affects RcGshT. The Na(+)-dependent GSH uptake kinetics exhibited high affinity (approximately 400 micron) and low affinity (approximately 10 mM) components. Fraction 11 expressed Na(+)-independent transport of intact GSH and also contained the GGT transcript. In conclusion, we have identified three distinct sized transcripts from bovine brain capillary mRNA which express GSH transport: one fraction expresses a novel Na(+)-dependent GSH uptake which can be dissociated unequivocally from both GGT and RcGshT for the first time and which may account for uptake of GSH against its electrochemical gradient at the BBB.
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PMID:Evidence for the existence of a sodium-dependent glutathione (GSH) transporter. Expression of bovine brain capillary mRNA and size fractions in Xenopus laevis oocytes and dissociation from gamma-glutamyltranspeptidase and facilitative GSH transporters. 862 54

A mixture of copper (Cu) (0.38 mg/kg), manganese (Mn (0.038 mg/kg), and horseradish peroxidase (HRP) (5.0 mg/kg) was injected intravenously (i.v.) into mature Eisai hyperbilirubinemic rats (EHBRs) and Sprague-Dawley rats (SDRs). Bile was collected at 10-min intervals before and after the injection, under anesthesia. The liver, kidneys, and blood were removed 40 min after the injection. The serum conjugated bilirubin concentration was 0.85 mg/dL in the EHBRs, but was below detection limits in the SDRs. The bile-reduced glutathione (GSH) concentration was much lower in the EHBRs (0.04 mg/mL) than in the SDRs (1.30 mg/mL). However, the hepatic GSH concentration was about 1.6 times higher in EHBRs (2.26 mg/g liver) than in SDRs (1.43 mg/g liver). The low excretion of biliary GSH was not caused by the activity of GGT in the liver, since there was no significant difference in the activity between the two groups (5.8 +/- 3.4 and 4.6 +/- 2.4 mumol p-nitroaniline/g protein/30 min in SDR and EHBR groups, respectively). There was a delay of initial biliary excretion of Cu in EHBRs compared to SDRs. The biliary concentration of Mn was slightly lower in EHBRs than in SDRs. Forty min after the injection of metals, however, there was no difference between hepatic concentrations of the two metals in the two groups. Our results suggest that abnormal deposition of the two metals is not observed naturally in EHBRs. Injected HRP was excreted rapidly and notably in the EHBRs compared to SDRs. Furthermore, the biliary concentration of beta-N-acetyl-D-glucosaminidase (beta-NAG) was significantly higher in EHBRs than in SDRs, Rapid biliary excretion of Cu, but not of Mn, may be related to the hepatobiliary transport of GSH, but the transport and lysosomal function do not originally regulate the biliary excretion of Cu.
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PMID:Biliary excretion of copper, manganese, and horseradish peroxidase in Eisai hyperbilirubinemic mutant rats (EHBRs) with defective biliary excretion of glutathione. 897 65

A gamma-glutamyl transpeptidase-glutathione (GGT-GSH) system induces transition metal-dependent lipid peroxidation (LPO). The role of the transition metals iron and copper in this system was studied by determination of LPO rates, the rates of Fe3+ reduction, and the steady state concentration of Fe2+ as function of concentration of o-phenanthroline or citrate. Optimum curves were obtained, compatible with the idea that Fe2+ chelated by an entity other than o-phenanthroline or citrate is important in thiol-driven LPO. Cu enhanced LPO at low concentrations, inhibited LPO at high ones, and catalytically elevated the steady state concentration of Fe2+. Relating the steady states of Fe2+ at various chelator concentrations with those of LPO rates, indicate that a Fe(2+)-O-O-Fe3+ complex may not be the principal oxidizing entity. The above, and the resistance of LPO to catalase, superoxide dismutase and mannitol are compatible with the notion that the Fe which participates in redox cycles is chelated to an entity that may be refractory to the action of these antioxidants.
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PMID:The role of chelators in the catalysis of glutathione-gamma-glutamyl transpeptidase-dependent lipid peroxidation by transition metals. 898 24

Two human prostate adenocarcinoma cell lines, LNCaP and PC-3, were used to study the effect of 5-azacytidine on GGT gene expression, via genomic DNA methylation, and GSH content. When the cells were treated with 5-azaC, the specific GGT activity increased in a dose and time-dependent manner and was accompanied by the elevation of intracellular glutathione content. Southern blot analysis of DNA digested with MspI or HpaII showed negative correlation between the methylation pattern of GGT DNA and GGT activity, either in control or 5-azaC treated cells. Reverse transcription-polymerase chain reaction (RT-PCR) analysis revealed that GGT mRNA types I are expressed and induced in a cell type-specific manner in control and 5-azacC treated cells respectively. Overall, our investigations suggest that DNA methylation and other mechanisms combine to regulate GGT gene expression in studied prostate adenocarcinoma derived cells.
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PMID:5-Azacytidine modulates gamma-glutamyltransferase and glutathione levels in two human prostatic adenocarcinoma cell lines. 980

Gamma-glutamyltranspeptidase (GGT-EC 2.3.2.2) activity and glutathione (GSH) content were measured in livers of female weanling Wistar rats (N = 5-18), submitted to rice-and-bean diets (13 and 6% w/w protein), both supplemented or not with DL-methionine (0.5 and 0.23 g/100 g dry diet, respectively). After 28 days, the rats on the rice-and-bean diets showed significantly higher levels (four times higher) of liver GGT activity and a concomitant 50% lower concentration of liver GSH in comparison with control groups feeding on casein. The addition of DL-methionine to rice-and-bean diets significantly increased the liver GSH content, which reached levels 50% higher than those found in animals on casein diets. The increase in GSH was accompanied by a decrease in liver GGT activity, which did not reach levels as low as those observed in the control groups. No significant correlation could be established between GGT and GSH changes under the present experimental conditions. Linear correlation analysis only revealed that in animals submitted to unsupplemented rice-and-bean diets GSH concentration was positively associated (P < 0.05) with weight gain, food intake and food efficiency. GGT, however, was negatively correlated (P < 0.05) with food intake only, and exclusively for supplemented rice-and-bean diets. The high levels of GGT activity observed in the present study for rats receiving a rice-and-bean mixture could be a result of the poor quality of these diets associated with their deficiency in sulfur amino acids. The results also suggest that diet supplementation with methionine could be important in the reduction of the deleterious effects of GSH depletion by restoring the intracellular concentration of this tripeptide.
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PMID:DL-methionine supplementation of rice-and-bean diets affects gamma-glutamyltranspeptidase activity and glutathione content in livers of growing rats. 1034 14

Carmustine [1 ,3-bis(2-chloroethyl)-1-nitrosurea (BCNU)] is an antitumour agent, however, its usefulness has been limited by a side effect; which involves pericholangitis and intrahepatic cholestasis. The primary effects of cholestasis is well known; bile flow retention, intracellular Ca++ accumulation and acidosis although it may lead to hepatotoxicity by dose-dependent manner. Recent studies provide evidence that lipoperoxidation (LPO) and alterations in the antioxidant system may significantly contribute to BCNU induced hepatotoxicity. Trimetazidine, (1-[2,3,4-Trimethoxy-benzyl] piperazine HCl; TMZ) introduced as an antianginal compound, is found to exhibit various cytoprotective features by preserving cellular ATP levels, limiting intracellular acidosis and inorganic phosphate as well as Na+ and Ca++ accumulation in ischemic cardiac injury. No study was undertaken to investigate the cytoprotective role of TMZ in cholestatic injury till today; therefore we initiated this study to investigate if its cytoprotective features also exhibit in the liver and to characterize further the cholestatic response to BCNU administration. Male rats were randomly seperated to control (CONT) (n = 15), BCNU administered (BCNU) (n = 16) and BCNU+TMZ administered (BCNU+TMZ) (n = 12) groups. The control rats received a single dosage of 2 ml/kg of corn oil (i.p.) while the BCNU group received a single dosage of BCNU (20 mg/kg, i.p.) in corn oil. In the BCNU + TMZ group 2,5 mg/kg/day (i.p.) of TMZ was administered for three days. This group also received BCNU (20 mg/kg, i.p.) in corn oil, 12 hours after the initial dose of TMZ. The cholestatic effect of BCNU was monitored by stasis markers such as ALP, GGT and total bilirubin levels. Hepatic TBARS analysis was determined with the modified method of OKHAWA et al. based on the reaction of lipid peroxides with thiobarbituric acid. Oxidized (GSSG) and reduced (GSH) glutathione levels were measured by the modified enzymatic recycling method of TEARE et al. Statistical tests were performed using Kruskal Wallis one-way Anova test and posthoc analysis by Newman-Keuls test. The BCNU group and the BCNU + TMZ group showed significant increases (p = 0.029) in hepatic TBARS levels compared to the CONT group; however the difference between the BCNU and BCNU + TMZ groups in regard to TBARS was not significant. BCNU and BCNU + TMZ groups manifested a significant decrease (p = 0.0005) in GSH levels as compared to controls. GSH/GSSG ratios in the BCNU and BCNU + TMZ group also manifested a significant decrease (p = 0.0013) as compared to the CONT group. TMZ administration caused a significant increase in total GSH levels (p = 0.0026) in BCNU + TMZ group when compared to the BCNU group. Our results support the hypothesis that BCNU induced cholestasis partly involves LPO revealed by the distinct increase in the content of TBARS in the liver after BCNU administration. BCNU is a potent inhibitor of GSSG reductase altering the preservation of the thiol redox balance in the system. As a result, supranormal concentrations of intracellular GSSG would accumulate in the hepatocyte and the extrusion of this oxidized compound would require active transport leading to ATP hydrolysis. This would deplete the energy stores of the cell which would accelerate further the possible prooxidant status. Although administration of TMZ did not provoke any significant alterations in LPO, it preserved the total GSH levels of the cell probably by improving the energy status of the cell by protection of ATP-producing processes at the mitochondrial level and provision of the necessary substrates for GSH synthesis. This protective role in the antioxidant system normalizes the altered GSH levels by BCNU and hence proposes TMZ to be a promising agent in the cholestatic injury.
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PMID:Cytoprotective effects of trimetazidine in carmustine cholestasis. 1044 91


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