EC:2.5.1.18 - FACTA Search

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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)

Rats and mice were exposed to the fumes of oxidative thermal degradation of polystyrene (350 degrees C). A decrease in the reduced glutathione (GSH) in both liver and lung was detected immediately after both the acute (mice, 3 h) and subacute (rats, 3 weeks) exposures were stopped. Later on an elevation in the amount of GSH due to the increased synthesis (rebound effect) could be seen. Cytochrome P-450 content in mouse liver was initially decreased after acute exposure, but the prolonged treatment doubled the amount of the P-450 hemoprotein in liver microsomes. After acute exposure 7-ethoxycoumarin 9-deethylase activity in mouse liver was doubled in 24 h. When the exposures were continued, this enhancement in ethoxycoumarin O-deethylase activity gradually disappeared. O-deethylase activity was also enhanced in rat liver and lung after subacute exposure. The exposures given had no effect on diphenyloxazole hydroxylase, and the effects on the conjugating enzymes (epoxide hydratase, UDPglucuronosyltransferase, glutathione S-transferase)) were insignificant in rat liver.
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PMID:Effects of thermal degradation products of polystyrene on drug biotransformation and tissue glutathione in rat and mouse. 73 18

Two forms of glutathione S-aryltransferase were purified from rat liver. The only differences noted between the two forms were in the chromatographic and electrophoretic properties, which permitted the separation of the two species. The molecular weights of the enzyme and its subunits were estimated as about 50000 and 23000 respectively. The steady-state kinetics did no follow Michaelis-Menten kinetics when one substrate concentration was kept constant while the second substrate concentration was varied. Several S-substituted GSH derivatives were tested as inhibitors of the enzymic reaction. The enzyme was inactivated by thiol-group reagents.
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PMID:Purification and characterization of two glutathione S-aryltransferase activities from rat liver. 81 Jan 39

The catalyzed reactions of GSH with organic nitrate and thiocyanate esters and with a series of chloronitrobenzene substrates have been investigated and the results used to formulate a mechanism for glutathione S-transferase catalysis. All the homogeneous preparations of the glutathione transferases that have been tested catalyze the reaction of GSH with organic nitrates and thiocyanates. The nature of the reaction with nitrate esters, resulting in the formation of GSSG rather than a thioether, has been investigated further. The presence of an additional nonsubstrate thiol decreased the formation of GSSG to an extent that cannot be explained by disulfide interchange. These results are interpreted to reflect the enzymatic formation of an unstable glutathione sulfenyl nitrite that undergoes subsequent non-enzymatic decomposition. Hammett plots of the catalytic constants of rat liver transferases B and C obtained with a series of 4-substituted 1-chloro-2-nitrobenzene substrates demonstrate a linear relationship with sigma- substituent constants, reflecting the nucleophilic nature of the enzymatic reactions and their strong dependence on the electrophilicity of the nonthiol substrate. These data suggest that the many diverse reactions catalyzed by the glutathione transferases may be formulated as a nucleophilic attack of enzyme-bound GSH on the electrophilic center of the second substrate. The final products observed reflect this primary event and the existence of subsequent nonenzymatic reactions.
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PMID:Mechanism for the several activities of the glutathione S-transferases. 97 64

Ligandin (Y protein) is an abundant cytoplasmic glutathione transferase present in liver, kidney and gut in various animals and man. Its interaction with four radiologic contrast media (Telepaque, 3-(3 amino-2,4,6, triiodophenyl -2 ethylpropanoic acid, sodium salt; Hypaque, sodium -3, 5-diacetamido-2,4,6,-triiodobenzoate; Cholografin, N,N'adipyl-bis-(3-amino-2,4,6-triiodobenzoic acid) N-methyl-glucosamine; Diodrast, 3,5-Diiodo-4-pyridone-N-acetic acid, Diethanolamine Salt was investigated by observing inhibitory effects on the enzyme-catalyzed conjugation of glutathione with 1-chloro-2, 4-dinitrobenzene. Lineweaver-Burk plots of reciprocal initial velocity versus reciprocal inhibitor concentrations at fixed glutathione and chlorodinitrobenzene concentrations demonstrate non-competitive inhibition by all contrast media except Diodrast. No conjugates of contrast media with glutathione were formed. It is postulated that intracellular accumulation of contrast media is aided by intracellular binding with ligandin. Inhibition of the GSH transferase activity of ligandin can disrupt the mercapturate formation, an important detoxification process.
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PMID:Interaction of ligandin with radiographic contrast media. 100 14

The oncosuppressive effect of melatonin on 9,10-dimethyl-1,2-benzanthracene (DMBA) induced rat mammary tumorigenesis led us to assess its possible modulatory influence on representative hepatic and mammary drug metabolizing enzymes in DMBA treated female Holtzman rats, reared in short and long photoperiods. Melatonin treated rats in either photoperiod showed a significant induction in hepatic and mammary levels of glutathione (GSH) and cytosolic activities of glutathione S-transferase (GST) when compared with the corresponding controls, along with a significant drop in hepatic microsomal contents of cytochromes b5 and P450. This induction of GSH and GST, and depletion of cytochromes b5 and P450 by melatonin may possibly be related to its anticarcinogenic potential in this tumor model.
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PMID:A possible modulatory influence of melatonin on representative phase I and II drug metabolizing enzymes in 9,10-dimethyl-1,2-benzanthracene induced rat mammary tumorigenesis. 128 33

The four residues of human glutathione S-transferase P1-1 whose counterparts were indicated by X-ray crystallography to reside in the GSH-binding site of pig glutathione S-transferase P1-1 were individually replaced with threonine or alanine by site-directed mutagenesis to obtain mutants R13T, K44T, Q51A, and Q64A. The kinetic parameters, susceptibilities to an inhibitor, S-hexyl-GSH, and affinities for GSH-Sepharose of the latter were compared with those of the wild-type enzyme, and pKa of the thiol group of GSH bound in R13T was shown to be equivalent to that in the wild type. From the results, Lys44, Gln51, and Gln64 were deduced to contribute to the binding of GSH. On the other hand, Arg13 seems to be essential for the enzymatic activity as mainly involved in the construction of a proper structure of the active site.
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PMID:Site-directed mutagenesis of amino acid residues involved in the glutathione binding of human glutathione S-transferase P1-1. 129 79

The relationship between reduced glutathione (GSH) level and glutathione S-transferase (GST) activity in erythrocytes was examined, using sheep erythrocytes, which have varying GSH concentrations, and dog erythrocytes with an inherited high concentration of GSH. There was a positive correlation (r = 0.529, p < 0.001) between the GSH level and GST activity in sheep erythrocytes. In dog erythrocytes, the GST activity in high-GSH cells was significantly (p < 0.001) higher than that in normal-GSH cells. These results indicate that the activity of GST in erythrocytes is directly correlated with the intracellular GSH level.
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PMID:The relationship between reduced glutathione level and glutathione S-transferase activity in sheep erythrocytes. 129 6

Studies on glutathione metabolism in an established baby hamster kidney cell line (BHK-21/C13) and in its polyoma virus-transformed counterpart (BHK-21/PyY), have revealed a significant stimulation of intracellular glutathione peroxidase activity (Se-independent plus Se-dependent) by alpha-tocopherol supplementation (14 microM). This stimulation was found to be much greater in the transformed cells. Other GSH-requiring enzyme activities (namely glutathione reductase and glutathione transferase) were unaltered by alpha-tocopherol treatment, suggesting a degree of specificity in its action on GSHpx. In unsupplemented growth media, the GSHpx activity in both cell lines was significantly decreased by an oxidative stress. However, the same stress applied to the alpha-tocopherol-supplemented cells had no effect on the stimulated GSHpx activity, suggesting a protection afforded by the alpha-tocopherol.
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PMID:Variable alpha-tocopherol stimulation and protection of glutathione peroxidase activity in non-transformed and transformed fibroblasts. 133 9

1. Six enzymes which collectively catalyze a number of glutathione-dependent synthetic, catabolic and detoxification reactions were examined along with glutathione status in liver, gills, and posterior kidney of channel catfish (Ictalurus punctatus). 2. Hepatic GSH concentrations were higher than those in kidney or gills. Oxidized glutathione (GSSG) concentrations were similar among the three tissues. 3. Specific (per unit protein) gamma-glutamylcysteine synthetase (GCS) activity was greater in the gills than in liver or posterior kidney. However, total organ GCS activity was greatest in the liver. 4. Specific and total hepatic glutathione peroxidase (GSH peroxidase) activities were substantially greater than those of gills or kidney. 5. Similar specific glutathione reductase (GSSG reductase) activities were observed among all three tissues. 6. All three tissues exhibited glutathione S-transferase (GST) activity towards 1-chloro-2,4-dinitrobenzene (CDNB). Specific and total organ GST activities were highest in the liver, followed by the posterior kidney and gills. 7. Gamma-glutamyltranspeptidase (GGT) activity was present in the posterior kidney, but was undetectable in the gills or liver.
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PMID:A comparison of glutathione-dependent enzymes in liver, gills and posterior kidney of channel catfish (Ictalurus punctatus). 136 Mar 60

Glutathione (GSH) conjugation of the chiral compound 2-bromo-3-phenylpropionic acid (BPP) was studied in vitro and in the rat in vivo. GSH conjugation of BPP, catalyzed by a mixture of glutathione-S-transferases (GST's) from rat liver cytosol in vitro, was stereoselective: at a substrate concentration of 250 microM, (R)-BPP was more rapidly conjugated than (S)-BPP (R/S-ratio = 2.6). The blood elimination kinetics of the separate BPP enantiomers and the biliary excretion kinetics of the corresponding GSH conjugates were studied in the rat in vivo after administration of (R)- or (S)-BPP at a dose level of 50 mumol/kg. Elimination of (R)-BPP from blood was faster than that of (S)-BPP: half lives were 9 +/- 2 min for (R)-BPP and 13 +/- 1 min for (S)-BPP. The biliary excretion rate of the GSH conjugate of (R)-BPP declined monoexponentially, while that of the GSH conjugate of (S)-BPP displayed a biphasic profile. Half lives of excretion were 13 +/- 1 for the GSH conjugate of (R)-BPP, and 11 +/- 2 for the GSH conjugate of (S)-BPP (second phase). The first phase in the biliary excretion of the GSH conjugate of (S)-BPP could not be attributed to capacity limitation of biliary transport carriers as higher excretion rates were attained upon administration of higher doses (100 and 200 mumol/kg) of (S)-BPP). The blood elimination profiles of (R)- and (S)-BPP differed greatly from the biliary excretion profiles of the corresponding GSH conjugates. This suggests that the kinetics of BPP conjugate excretion are determined by other processes than hepatic GSH conjugation.
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PMID:Glutathione conjugation and pharmacokinetics of 2-bromo-3-phenylpropionic acid in vitro and in the rat in vivo. 136 Nov 50

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