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)

In the companion paper we demonstrated that hepatic vitamin E in rats becomes depleted and extrahepatic pools of vitamin E are altered by treatment with 1,2-dibromoethane (DBE). Vitamin E depletion may be dependent upon initial steps of DBE metabolism that are either oxidative (cytochrome P450 dependent) or conjugative (glutathione transferase dependent). That the liver content of glutathione (GSH) and vitamin E, the plasma concentration of vitamin E, and the serum activities of AST and ALT may be influenced by cytosolic metabolism of DBE was assessed by comparison of findings from rats treated with either 1,2-dichloroethane (DCE) or 1-bromo-2-chloroethane (BCE). The extent of oxidative metabolism was diminished by the use of tetradeutero-DBE (d4-DBE), and the availability of GSH for conjugative metabolism was diminished by pretreatment of rats with L-buthionine-S,R-sulfoximine (BSO) prior to treatment with DBE. Our results indicate that neither DCE nor BCE provokes a liver vitamin E depletion in rats, that d4-DBE treatment hastens but does not enhance the observed hepatic vitamin E depletion by comparison to animals treated with an equimolar dose of DBE, and that BSO pretreatment prevented the hepatic vitamin E depletion observed from animals treated with DBE alone. These results indicate that hepatic vitamin E depletion is the unique sequelae to conjugation of GSH with DBE, and we suggest the reactive episulfonium ion intermediate or a macromolecular adduct of this ion derived from DBE may play a role in liver vitamin E depletion associated with exposure to DBE.
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PMID:Modification of hepatic vitamin E stores in vivo. III. Vitamin E depletion by 1,2-dibromoethane may be related to initial conjugation with glutathione. 189 41

To clarify the role(s) of thiol (sulfhydryl) groups of cysteine (Cys) residues in the activity of the rat glutathione transferase P (7-7) form (GST-P), a cDNA clone, pGP5, containing the entire coding sequence of GST-P (Y. Sugioka et al., (1985) Nucleic Acids Res. 13, 6044-6057) was inserted into the expression vector pKK233-2 and the recombinant GST-P (rGST-P) expressed in E. coli JM109. All four Cys residues in rGST-P were independently substituted with alanine (Ala) by site-directed mutagenesis, the resultant mutants as well as the rGST-P being identical to GST-P purified from liver preneoplastic nodules with regard to molecular weight and immunochemical staining. Since all mutants proved as enzymatically active towards 1-chloro-2,4-dinitrobenzene as liver GST-P, it was indicated that none of the four Cys residues is essential for GST-P activity. However, the mutant with Ala at the 47th position from the N-terminus (Ala47) became resistant to irreversible inactivation by 0.1 mM N-ethylmaleimide (NEM), whereas the other three mutants remained as sensitive as the nonmutant type (rGST-P). Ala47 was also resistant to inactivation by the physiological disulfides, cystamine or cystine, which cause mixed disulfide and/or intra- or inter-subunit disulfide bond formation. These results suggest that the 47-Cys residue of GST-P may be located near the glutathione binding site, and modulation of this residue by thiol/disulfide exchange may play an important role in regulation of activity.
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PMID:Role of cysteine residues in the activity of rat glutathione transferase P (7-7): elucidation by oligonucleotide site-directed mutagenesis. 189 1

Aflatoxin B1 (AFB1) appears to be a risk factor for upper respiratory tumors in individuals occupationally exposed to AFB1-contaminated grain dusts. To study the potential effects of this mycotoxin in the upper airways, the metabolism of AFB1 was investigated in tracheal cultures and purified tracheal microsomes from rabbit, hamster and rat. These species differ in the proportion of P450-containing non-ciliated epithelial (NC) cells in the upper airway (17, 41, 0% respectively). Cultures from the rabbit produced the highest level of the AFB1 metabolites AFB1-dihydrodiol (AFB1-diol), GSH-AFB1, AFM1, AFB2a and the highest tracheal microsomal pentoxyresorufin-O-dealkylase (PROD) activity (an indicator of that P450 activity which activates AFB1) and greater cytosolic GSH-transferase activity compared to hamster and rat. Tracheal microsomal epoxide hydrolase activity, AFB1-diol production, cytochrome P450 content, P450 reductase and ethoxyresorufin-O-dealkylase (EROD) activity (an indicator of AFB1 detoxification) were highest in the hamster. Although the overall metabolic activity in rat tracheal epithelium was low, PROD-related activity appeared to predominate. Conjugation with GSH was the major detoxification pathway in rabbit and rat upper airways, although levels of AFB1-GSH and activities of glutathione transferase were significantly lower in the rat than in the rabbit and hamster. Hydrolysis of the putative AFB1-2,3-epoxide via epoxide hydrolase appeared to be the major AFB1 detoxification pathway in hamster tracheal epithelium as indicted by corresponding high tracheal microsomal AFB1-diol production and EH activity compared to rabbit and rat. Glucuronide and sulfate conjugates of AFB1 and its metabolites were formed in tracheal explant cultures from these three species, although amounts formed were minor. These results indicate that rabbit upper airway epithelium contains metabolic activity primarily involved in AFB1 activation, whereas AFB1 detoxification pathways predominante in hamster. Furthermore, the characteristics of carcinogen metabolism are not predictable based solely on airway morphology.
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PMID:Comparative biotransformation of aflatoxin B1 in mammalian airway epithelium. 189 9

Induction of glutathione transferases (EC. 2.5.1.18), NAD(P)H:(quinone-acceptor) oxidoreductase (EC 1.6.99.2; quinone reductase) and other detoxification enzymes is a major mechanism for protecting cells against the toxicities of electrophiles, including many carcinogens. Although inducers of these two enzymes belong to many different chemical classes, they nevertheless contain (or acquire by metabolism) electrophilic centres that appear to be essential for inclusive activity, and many inducers are Michael reaction acceptors [Talalay, De Long & Prochaska (1988) Proc. Natl. Acad. Sci. U.S.A., 85, 8261-8265]. The inducers therefore share structural and electronic features with glutathione transferase substrates. To define these features more precisely, we examined the inductive potencies (by measuring quinone reductase in murine hepatoma cells) of two types of glutathione transferase substrates: a series of 1-chloro-2-nitrobenzenes bearing para-oriented electron-donating or -withdrawing substituents and a wide variety of other commonly used and structurally unrelated glutathione transferase substrates. We conclude that virtually all glutathione transferase substrates are inducers, and their potencies in the nitrobenzene series correlate linearly with the Hammett sigma or sigma- values of the aromatic substituents, precisely as previously reported for their efficiencies as glutathione transferase substrates. More detailed information on the electronic requirements for inductive activity was obtained with a series of methyl trans-cinnamates bearing electron-withdrawing or -donating substituents on the aromatic ring, and in which the electronic densities at the olefinic and adjacent carbon atoms were measured by 13C n.m.r. Electron-withdrawing meta-substituents markedly enhance inductive potency in parallel with their increased non-enzymic reactivity with GSH. Thus, methyl 3-bromo-, 3-nitro- and 3-chloro-cinnamates are 21, 14 and 8 times more potent inducers than the parent methyl cinnamate. This finding permits the design of more potent inducers, which are important for elucidation of the molecular mechanisms of induction.
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PMID:The potency of inducers of NAD(P)H:(quinone-acceptor) oxidoreductase parallels their efficiency as substrates for glutathione transferases. Structural and electronic correlations. 190

7-Chloro-4-nitrobenzo-2-oxa-1,3-diazole reacts with two thiol groups of the dimeric horse erythrocyte glutathione transferase at pH 5.0, with strong inactivation reversible on dithiothreitol treatment. The inactivation kinetic follows a biphasic pattern, similar to that caused by other thiol reagents as recently reported. Both S-methylglutathione and 1-chloro-2,4-dinitrobenzene protect the enzyme from inactivation. Analysis of the reactive SH group-containing peptide gives the sequence Ala-Ser-Cys-Leu-Tyr, identical with that of the peptide that contains the reactive cysteine 47 of the human placental transferase. In the presence of glutathione, the enzyme is not inactivated by this reagent, but it catalyzes its conjugation to glutathione. At higher pH values, 7-chloro-4-nitrobenzo-2-oxa-1,3-diazole reacts with 2 tyrosines/dimer and lysines, as well as with cysteines. Reaction with lysine seems essentially without effect on activity; whether the reactive tyrosines are important for activity could not be determined using this reagent only. However, 2 tyrosines among the 4 that are nitrated by tetranitro-methane are important for activity.
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PMID:Interaction of glutathione transferase from horse erythrocytes with 7-chloro-4-nitrobenzo-2-oxa-1,3-diazole. 190 85

The effect of U.V. radiation or alkylating agents, such as actinomycin-D, cycloheximide and mitomycin-C (MMC), was studied on CHO, BHK and HeLa cells. U.V. radiation caused DNA ssb and dsb and were prevented by cycloheximide and actinomycin-D. MMC is known to be cytotoxic in CHO/BHK cells by forming free radical generation. MMC in combination with U.V. radiation enhanced DNA ssb & dsb in these cell types. However, HeLa cells were insensitive to U.V. radiation. This insensitivity to U.V. radiation could be ascribed to the presence of glutathione transferase which is absent in CHO/BHK cell line.
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PMID:In vitro study of cytotoxicity by U.V. radiation and differential sensitivity in combination with alkylating agents on established cell systems. 190 47

Injection of perfluorodecaline to rats caused an increase of the phase II xenobiotic biotransformation enzyme activities followed by cytochrome P-450 induction. The activities of liver microsomal UDP-glucuronosyl transferase and glutathione transferase increased by 130 and 40%, respectively, against the control level. The increase of the cytosolic glutathione transferase activity was insignificant In contrast, the activity of sulfotransferase decreased about 2-fold. The role of modification of xenobiotic biotransformation enzymes in the biological effect of perfluorodecaline is discussed.
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PMID:[The effect of perfluordecaline on the activity of phase III xenobiotic transformation enzymes]. 191 74

An affinity binding protein from the cytosolic fraction of Bacteroides fragilis was purified by using epoxy activated-Sepharose 6B resin immobilized with GSH or with hexyl-GSH. This protein showed a subunit molecular mass (22 kDa) similar to that of glutathione transferase purified from Proteus mirabilis (22.5 kDa). However, the affinity binding protein of Bacteroides fragilis, unlike the GSH-affinity binding protein of Proteus mirabilis, was devoid of the capacity to conjugate GSH to the most commonly used glutathione transferase substrates. The GSH-affinity binding protein of Bacteroides fragilis was also antigenically different from the GSH-affinity bound protein of Proteus mirabilis. It was concluded that the anaerobic microorganism is not able to express glutathione transferase even though it contains a GSH-affinity binding protein with a structural characteristic reminiscent of aerobic glutathione transferase.
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PMID:Purification of a GSH-affinity binding protein from Bacteroides fragilis devoid of glutathione transferase activity. 193 32

Human placenta glutathione transferase (EC 2.5.1.18) pi undergoes an oxidative inactivation which leads to the formation of an inactive enzymatic form which is homogeneous in several chromatographic and electrophoretic conditions. This process is pH dependent, and it occurs at appreciable rate in alkaline conditions and in the presence of metal ions. Dithiothreitol treatment completely restores the active form. -SH titration data and electrophoretic studies performed both on the oxidized and reduced forms indicate that one intrachain disulfide is formed, probably between the two faster reacting cysteinyl groups of each subunit. By the use of a specific fluorescent thiol reagent the disulfide forming cysteines have been identified as the 47th and 101th residues. The disulfide formation causes changes in the tertiary structure of this transferase as appears by CD, UV, and fluorometric analyses; evidences are provided that one or both tryptophanyl residues of each subunit together with a number of tyrosyl residues are exposed to a more hydrophilic environment in the oxidized form. Moreover, electrophoretic data indicate that the subunit of the oxidized enzyme has an apparent molecular mass lower than that of the reduced transferase, thereby confirming structural differences between these forms.
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PMID:Redox forms of human placenta glutathione transferase. 193 75

Isolated hepatocytes were prepared from normal and diseased human livers and maintained in primary monolayer culture for up to 96 h. The viability and yields of cell preparations obtained from diseased livers did not differ significantly from those obtained from normal livers. During the culture period a significant increase in cell protein/DNA ratio was observed in both normal and diseased hepatocytes. The maintenance of a number of drug metabolising enzyme activities was determined in these hepatocytes during 96 h of culture. In normal hepatocytes the maintenance pattern of mixed-function oxidase activities (ethoxycoumarin-O-deethylase and ethoxyresorufin-O-deethylase) was clearly different from that of the conjugating enzymes (sulfotransferase and glutathione transferase). Whereas ethoxycoumarin-O-deethylase and ethoxyresorufin-O-deethylase activities declined sharply over the first 24 h in culture and then either totally or partially recovered, sulfotransferase and glutathione transferase activities were found to be relatively more stable initially but thereafter decline progressively. In diseased hepatocytes mixed-function oxidase activities were maintained less well than the corresponding activities in normal hepatocytes whereas conjugation enzyme activities were maintained to a similar extent.
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PMID:Maintenance of mixed-function oxidase and conjugation enzyme activities in hepatocyte cultures prepared from normal and diseased human liver. 194 Feb 64

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