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)

Changes in the activities of rat hepatic glutathione (GSH) peroxidase (GSH-Px) and GSH reductase (GR) were investigated during the induction of preneoplastic gamma-glutamyltransferase (gamma-GT)-positive foci and hyperplastic nodules by the administration of diethylnitrosamine followed by N-2-fluorenylacetamide. Activities of GSH-Px towards both cumene hydroperoxide (cumene-OOH) and hydrogen peroxide markedly decreased at an early stage of the above hepatocarcinogenesis, but the activity towards cumene-OOH again increased with the appearance of the foci and nodules, which were detectable as an increased gamma-GT activity. It was demonstrated by CM-Sephadex column chromatography and immunochemically that the increased activity towards cumene-OOH alone is due to the increased GSH-Px activity of GSH S-transferase B. GR activity and the total glutathione content in the liver also increased with increased preneoplastic foci and nodules. These results are discussed in connection with the protection mechanism(s) of these cell populations against damage by active oxygen and lipid peroxides produced in chemical hepatocarcinogenesis.
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PMID:Changes in activities of glutathione peroxidase and glutathione reductase during chemical hepatocarcinogenesis in the rat. 664 39

Transport of reduced glutathione (GSH) was studied in isolated rat liver canalicular membrane vesicles by a rapid filtration technique. The membrane vesicles exhibit uptake of [2-3H]glycine--labeled GSH into an osmotically reactive intravesicular space. Although the canalicular membrane vesicles possess gamma-glutamyltransferase and aminopeptidase M, enzymes that hydrolyze glutathione into component amino acids, inactivation of the vesicle-associated transferase by affinity labeling with L-(alpha S,5S)-alpha-amino-3-chloro-4,5-dihydro-5-isoxazoleacetic acid (AT-125) had no effect on the initial rate of GSH transport. Chemical analysis revealed that intact GSH accounted for most of vesicle-associated radioactivity. The initial rate of transport followed saturation kinetics with respect to GSH concentration; an apparent Km of 0.33 mM and V of 1.47 nmol/mg protein in 20 s were calculated. These results indicate that transport of GSH across the canalicular membranes is a carrier-mediated process. Replacement of NaCl in the transport medium by KCl, LiCl or choline chloride had no effect on the transport activity of the vesicles. The rate of GSH uptake by the vesicles was enhanced by valinomycin-induced K+-diffusion potential (vesicle inside-positive) and was inhibited by probenecid, indicating that GSH transport across the canalicular membranes is electrogenic and involves the transfer of negative charge. The transport of GSH was inhibited by oxidized glutathione or S-benzyl-glutathione. This transport system in canalicular plasma membranes may function in biliary secretion of GSH and its derivatives which are synthesized in hepatocytes by oxidative processes or glutathione S-transferase.
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PMID:The mechanism of biliary secretion of reduced glutathione. Analysis of transport process in isolated rat-liver canalicular membrane vesicles. 688 44

Turnover of cellular glutathione in isolated rat kidney cells was studied using cystine or methionine as sulfur donor. In the absence of any sulfur donor a continuous decrease of intracellular reduced glutathione (GSH) during incubation of the cells was observed. This decrease was abolished in the presence of cystine, and, as indicated by incorporation of 35S, there was also a rapid synthesis of GSH. In the presence of gamma-glutamyltransferase inhibitor, the synthesis of intracellular GSH was accompanied by an accumulation of extracellular cysteine-glutathione mixed disulfide whereas only minor amounts of GSH and glutathione disulfide could be detected. The intracellular levels of both the cysteine-glutathione and glutathione disulfides were at all times points very low. Even though the uptake of cystine was rapid and not rate-limiting for GSH synthesis, almost no cystine could be detected intracellularly. An increasing intracellular cysteine concentration was however observed, indicating a rapid reduction of cystine. In contrast to cystine, methionine did not protect from the loss of intracellular GSH and only a low rate of incorporation of 35S into GSH was observed. Methionine was rapidly taken up into the cells but was apparently converted to cysteine only to a very limited extent. This is most likely due to a low activity of the enzyme cystathionase since neither homocysteine nor cystathionine was very effective in supporting GSH synthesis.
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PMID:Turnover of cellular glutathione in isolated rat-kidney cells. Role of cystine and methionine. 725 Jan 17

Long-Evans Cinnamon (LEC) rats, characterized by a gross accumulation of hepatic Cu and the spontaneous onset of hepatitis, have been established to be an animal model for Wilson disease. They were used to estimate the relationships among copper (Cu), metallothionein (MT), and reduced glutathione (GSH) in biliary excretion in this study. Even though a huge amount of MT existed in the LEC rat liver (5016 micrograms/g liver) compared to that (63 micrograms/g liver) of controls (Fischer rats), the biliary excretion of MT (65 ng/ml bile) did not reflect the accumulated MT level in LEC rats. It seems likely that MT does not excrete intrinsically into the bile. Biliary excretion of Cu (0.17 microgram/ml) in LEC rats was significantly lower than that (0.57 microgram/ml) in Fischer rats. The difference in biliary excretion of GSH between the two groups was significant but slight. The reduced excretion of GSH into bile in LEC rats may be due to increased hepatic gamma-glutamyltransferase but not to hepatic GSH levels. There were no differences in biliary potassium and inorganic phosphorous between the two groups. On the other hand, excretion of lysosomal enzymes such as beta-N-acetylglucosaminidase into bile was much lower in LEC rats (15.6 units/liter) than in controls (42.5 units/liter). The defective biliary excretion of Cu may be due to impaired lysosomal exocytosis, rather than canalicular membrane impairment. The LEC rat is very useful for research into the dynamics of metal excretion via the hepatobiliary system.
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PMID:Biliary excretion of copper, metallothionein, and glutathione into Long-Evans Cinnamon rats: a convincing animal model for Wilson disease. 755 24

The influence of thyroid hormone administration on liver glutathione (GSH) extraction in the isolated perfused liver was studied in fed rats for a period of 1-7 days following a single dose of 0.1 mg 3,5,3'-triiodothyronine (T3)/kg. T3 treatment led to an early and transient calorigenic response, as well as an enhancement in liver GSH removal, reaching a maximal effect at 2 days after hormone administration, which was normalized in the 3- to 7-day period studied. Addition of the gamma-glutamyltransferase (gamma-GT) inhibitor DL-serineborate (4 mM) to the perfusate abolished the increase in the hepatic removal of GSH elicited by T3, and enhanced the sinusoidal concentration of GSH, studied at 2 days after hormone administration. These data support the role of hepatic basolateral gamma-GT ectoactivity in the depletion of portally added and liver-derived GSH as an adaptive response to recover GSH levels after reduction by T3-induced oxidative stress.
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PMID:Effect of thyroid hormone administration on the depletion of circulating glutathione in the isolated perfused rat liver and its relationship to basolateral gamma-glutamyltransferase activity. 756 55

Putrescine uptake in type II pneumocytes is a carrier-mediated active process. Our hypothesis was that oligoamines might be taken up into the cell at least in part by gamma-glutamyltransferase (gamma-GT). This was investigated in rat type II pneumocytes 24 hr after their isolation. Preexposure to 125 microM L-buthionine-[SR]-sulfoximine (BSO) or 100 microM diethylmaleate (DEM), both of which affect intracellular glutathione (GSH) only, were found to decrease GSH by 85% (p < 0.05) and 62%, respectively (p < 0.05), without change in [3H]-putrescine uptake. Preexposure to 20 microM N-ethylmaleimide (NEM), which affects intra- and extracellular GSH, decreased intracellular GSH by 79% (p = 0.015) and putrescine uptake by 39% (p = 0.03). Selective extracellular GSH depletion by 10 microM copper-o-phenanthroline complex (CuP) led to a decrease in putrescine uptake of 41% (p = 0.001), while intracellular GSH remained unchanged. Specific inhibition of gamma-GT by 5-20 mM serine-borate or 5 mM acivicin gave similar degrees of putrescine uptake inhibition (39.5% and 40.5%). The kinetic properties of the putrescine uptake system in the presence of acivicin and serine-borate indicated that the Vmax decreased by 25%, while Km remained unchanged. In experiments with pure gamma-GT, the oligoamines putrescine, spermidine and spermine, and cystamine proved to be acceptor substrates for gamma-GT, all having similar efficiencies (Vmax/Km); methylglyoxal-bis-(guanyl-hydrazone) and paraquat were not accepted. As extracellular GSH is required for gamma-GT, and because its extracellular depletion inhibits putrescine uptake as much as specific inhibition of gamma-GT, we suggest that 30-40% of the putrescine uptake in type II pneumocytes occurs by gamma-GT and that, therefore, at least two systems are involved in the uptake of putrescine.
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PMID:Role of gamma-glutamyltransferase in putrescine uptake by rat type II pneumocytes. 757 83

Hyperplastic nodular cirrhosis was induced in rats by long-term (6 month) i.p. administration of thioacetamide at doses of 2.66 mmol/kg body wt, three times per week. The survival rate of animals at the end of the treatment was 90%. To follow the temporal changes samples at 0, 7, 15, 30, 45, 60, 90, 150 and 180 days from rats during thioacetamide intoxication and from chronological controls were obtained. The cirrhogenic ability of this treatment was assessed on the basis of morphological changes: the development of macronodular cirrhosis and the appearance of fibrous septa of collagen through portal spaces. Parameters of liver injury and cholestasis were obtained by assaying the serum activities of isocitrate dehydrogenase and gamma-glutamyltransferase. Enzymes and metabolites related to glutathione redox systems, as well as other antioxidant enzymes, were tested. Catalase and glutathione peroxidase, the two enzymes involved in the elimination of peroxides, and glutathione reductase decreased significantly at the end of the 6 months of intoxication, while Cu-Zn and Mn superoxide dismutases increased progressively during the long-term thioacetamide treatment. Protein thiol levels profile showed a biphasic change increasing from the 7th day and were insensitive to the 30% depletion of intracellular glutathione (GSH). To study the relationship of the intracellular thiols on the mechanisms of cell proliferation and differentiation during the cirrhogenic process, DNA content was assayed by flow cytometry in isolated hepatocytes, and DNA ploidy and distribution between G0-G1, S and G2 + M phases were determined. Remarkable changes in relation to a sharp increase in diploid population from 7 to 180 days (24.5%-->85.5%), a pronounced decrease in polyploid populations (tetraploid+octoploid) in the same period (73.7%-->12.3%), and elevations in the populations in S phase (S1 + S2) were observed in thioacetamide-treated rats. The results obtained indicate that hepatocytes isolated from thioacetamide-treated rats showed a marked tendency to diploidy, an enhancement in DNA replication parallel to the hepatic content of protein sulphydryl groups and a significant decline in antioxidant enzyme activities. The increase in protein thiols was independent of GSH level and of the thiol redox state.
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PMID:Relationship between antioxidant systems, intracellular thiols and DNA ploidy in liver of rats during experimental cirrhogenesis. 761 93

The administration of lindane (60 mg/kg) to fed rats diminished the content of hepatic glutathione (GSH) 4 h after treatment, which was recovered at 24 h. At these experimental times, the activities of glutathione peroxidase, glutathione reductase, glutathione-S-transferases and gamma-glutamyltransferase in the liver of lindane-treated rats and control animals were comparable. Liver GSH turnover, measured after a pulse of [35S]cysteine, was enhanced by 69% (P < 0.05) in lindane-treated rats 24 h after intoxication compared to controls, with a 63% (P < 0.05) increase in the estimated rate of GSH synthesis. It is concluded that lindane enhances GSH synthesis in rat liver 24 h after treatment as a consequence of the decrement in its content observed at early times of intoxication (4 h), thus allowing the recovery of the normal level of hepatic GSH.
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PMID:Turnover of hepatic glutathione after acute lindane intoxication. 769 23

The importance of renal gamma-glutamyltransferase activity in the hepatic utilization of exogenous glutathione (GSH) was evaluated by injecting GSH (1.67 mmol/kg body wt) i.v. into bilaterally nephrectomized and sham-operated Sprague-Dawley rats in which endogenous hepatic GSH had been decreased (0.20 +/- 0.01 mumol/g liver vs 5.87 +/- 0.26 mumol/g liver in normal controls, mean +/- SD) by diethylmaleate (0.5 ml/kg body wt, i.p.). Hepatic GSH concentration 60 min after GSH administration was lower in the nephrectomized than in the sham-operated rats (0.87 +/- 0.25 mumol/g liver vs 3.08 +/- 0.81 mumol/g liver, P < 0.001), while plasma GSH concentration was higher in the former (4.61 +/- 1.07 mM vs 0.11 +/- 0.06 mM, P < 0.001). In rats with intact kidneys which had been given a gamma-glutamyltransferase inhibitor (acivicin, 25 mumol/kg body wt i.v.) prior to GSH administration, the hepatic GSH concentrations (1.11 +/- 0.49 mumol/g liver) were comparable to those obtained in the nephrectomized rats. When N-acetylcysteine (1.67 mmol/kg body wt, i.v.) was administered instead of GSH, the hepatic GSH concentrations were similar in nephrectomized and sham-operated rats (1.54 +/- 0.23 mumol/g liver vs 2.22 +/- 0.58 mumol/g liver, NS). The gamma-glutamyltransferase activity was much higher in the kidney than in the liver (4460 +/- 830 IU/kg body wt vs 14 +/- 7 IU/kg body wt). These results indicate that the kidney plays an essential role in the hepatic utilization of exogenous GSH through its high gamma-glutamyltransferase activity.
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PMID:Role of renal gamma-glutamyltransferase activity in hepatic utilization of exogenous glutathione. 771 18

The nephrotoxicity of 4-amino-3-S-glutathionylphenol (PAP-GSH), a known metabolite of 4-amino-phenol (PAP), was determined in male Fischer 344 rats. Administration of a single dose of 40 or 60 mumol kg-1 caused a marked elevation in blood urea nitrogen and an increase in the urinary excretion of glucose, protein and gamma-glutamyltransferase (GGT). These changes were associated with histological alterations in the proximal tubule, where at the lower dose the lesion was restricted to the S3 region of the proximal tubule in the medullary rays, while at the higher dose the lesion extended to affect the S3 region in both the medullary rays and the outer stripe of the outer medulla. Studies with [35S]-PAP-GSH at 40 mumol kg-1 showed selective retention of radioactivity in the kidney, relative to other organs 24 h after dosing and that some radioactivity was covalently bound to renal proteins. Pretreatment of animals with probenecid, an inhibitor of renal organic anion transport, or aminooxyacetic acid, an inhibitor of cysteine conjugate beta-lyase, had little or no effect on the toxicity. In contrast, pretreatment of animals with acivicin, an inhibitor of gamma-glutamyltransferase, or co-administration of PAP-GSH with ascorbic acid almost completely protected against the nephrotoxicity. This protection was associated with a decreased concentration of radioactivity from [35S]-PAP-GSH in the kidneys and a decrease in the amount covalently bound to renal protein. Thus, the nephrotoxicity of PAP-GSH may be mediated by oxidation and further processing of the glutathione conjugate via gamma-glutamyltransferase.
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PMID:Nephrotoxicity of 4-amino-3-S-glutathionylphenol and its modulation by metabolism or transport inhibitors. 790 30


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