UMLS:C1260386 - FACTA Search

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Query: UMLS:C1260386 (GSH)
38,102 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The substrate specificity of rat liver microsomal glutathione transferase toward glutathione has been examined in a systematic manner. Out of a glycyl-modified and eight gamma-glutamyl-modified glutathione analogues, it was found that four (glutaryl-L-Cys-Gly, alpha-L-Glu-L-Cys-Gly, alpha-D-Glu-L-Cys-Gly, and gamma-L-Glu-L-Cys-beta-Ala) function as substrates. The kinetic parameters for three of these substrates (the alpha-D-Glu-L-Cys-Gly analogue gave very low activity) were compared with those of GSH with both unactivated and the N-ethylmaleimide-activated microsomal glutathione transferase. The alpha-L-Glu-L-Cys-Gly analogue is similar to GSH in that it has a higher kcat (6.9 versus 0.6 s-1) value with the activated enzyme compared with the unactivated enzyme but displays a high Km (6 versus 11 mM) with both forms. Glutaryl-L-Cys-Gly, in contrast, exhibited a similar kcat (8.9 versus 6.7 s-1) with the N-ethylmaleimide-treated enzyme but retains a higher Km value (50 versus 15 mM). Thus, the alpha-amino group of the glutamyl residue in GSH is important for the activity of the activated microsomal glutathione transferase. These observations were quantitated by analyzing the changes in the Gibbs free energy of binding calculated from the changes in kcat/Km values, comparing the analogues to GSH and each other. It is estimated that the binding energy of the alpha-amino group of the glutamyl residue in GSH contributes 9.7 kJ/mol to catalysis by the activated enzyme, whereas the corresponding value for the unactivated enzyme is 3.2 kJ/mol. The importance of the acidic functions in glutathione is also evident as shown by the lack of activity with 4-aminobutyric acid-L-Cys-Gly and the low kcat/Km values with gamma-L-Glu-L-Cys-beta-Ala (0.03 and 0.01 mM-1s-1 for unactivated and activated enzyme, respectively). Utilization of binding energy from a correctly positioned carboxyl group in the glycine residue (10 and 17 kJ/mol for unactivated and activated enzyme, respectively) therefore also appears to be required for optimal activity and activation. A conformational change in the microsomal glutathione transferase upon treatment with N-ethylmaleimide or trypsin, which allows utilization of binding energy from the alpha-amino group of GSH as well as the glycine carboxyl in catalysis, is suggested to account for at least part of the activation of the enzyme.
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PMID:Studies on the activity and activation of rat liver microsomal glutathione transferase with a series of glutathione analogues. 198 71

The substrate specificity of purified rat liver glutathione S-transferases (GSTs) for a series of gamma-glutamyl-modified GSH analogues was investigated. GST isoenzyme 3-3 catalysed the conjugation of 1-chloro-2,4-dinitrobenzene with six out of the nine analogues. alpha-L-Glu-L-Cys-Gly and alpha-D-Glu-L-Cys-Gly showed catalytic efficiencies of 40% and 130% that of GSH respectively. The GSH analogue with an alpha-D-glutamyl moiety appeared to be a highly isoenzyme-3-3-specific co-substrate: kcat./Km with GST isoenzyme 4-4 was only about 5% that with GST isoenzyme 3-3, and no enzymic activity was detectable with GST isoenzymes 1-1 and 2-2. GST isoenzyme 4-4 showed some resemblance to GST 3-3: five out of nine co-substrate analogues were accepted by this second isoenzyme of the Mu multigene family. Isoenzymes 1-1 and 2-2, of the Alpha multigene family, accepted only two alternative co-substrates, which indicates that their GSH-binding site is much more specific.
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PMID:Substrate specificity of rat liver glutathione S-transferase isoenzymes for a series of glutathione analogues, modified at the gamma-glutamyl moiety. 290 9

Thioredoxin is a small (Mr 12,000) ubiquitous redox protein with the conserved active site structure: -Trp-Cys-Gly-Pro-Cys-. The oxidized form (Trx-S2) contains a disulfide bridge which is reduced by NADPH and thioredoxin reductase; the reduced form [Trx(SH)2] is a powerful protein disulfide oxidoreductase. Thioredoxins have been characterized in a wide variety of prokaryotic cells, and generally show about 50% amino acid homology to Escherichia coli thioredoxin with a known three-dimensional structure. In vitro Trx-(SH)2 serves as a hydrogen donor for ribonucleotide reductase, an essential enzyme in DNA synthesis, and for enzymes reducing sulfate or methionine sulfoxide. E. coli Trx-(SH)2 is essential for phage T7 DNA replication as a subunit of T7 DNA polymerase and also for assembly of the filamentous phages f1 and M13 perhaps through its localization at the cellular plasma membrane. Some photosynthetic organisms reduce Trx-S2 by light and ferredoxin; Trx-(SH)2 is used as a disulfide reductase to regulate the activity of enzymes by thiol redox control. Thioredoxin-negative mutants (trxA) of E. coli are viable making the precise cellular physiological functions of thioredoxin unknown. Another small E. coli protein, glutaredoxin, enables GSH to be hydrogen donor for ribonucleotide reductase or PAPS reductase. Further experiments with molecular genetic techniques are required to define the relative roles of the thioredoxin and glutaredoxin systems in intracellular redox reactions.
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PMID:Thioredoxin and related proteins in procaryotes. 315 90

Murine L1210 leukemia cells resistant to the antineoplastic agent L-phenylalanine mustard have a 1.5-2.0-fold elevation in their cellular GSH and GSSG content as compared to drug-sensitive cells. Cellular uptake of L-[U-14C]cystine and its incorporation into GSH of the resistant tumor are correspondingly elevated. Synthesis of gamma-glutamylcysteine, GSH, and GSSG is elevated 1.5-2.0-fold in cell-free preparations of the resistant tumor. This increased synthesis of GSH is attributed to increased cellular content (1.6-fold) of gamma-glutamylcysteine synthetase. GSH synthetase activity is equivalent in both drug-sensitive and -resistant cells. Investigation into the hydrolysis of selected peptides by cell-free preparations of both sensitive and resistant tumors suggest that aminopeptidase M participates in the formation of L-cysteine from L-Cys-Gly. This is supported by the observation that these preparations readily degrade L-Leu-p-nitroanilide and L-Ala-L-Ala-L-Ala, known substrates for aminopeptidase M, but not dipeptidase. The failure of the tumors to degrade Gly-D-Ala, a dipeptidase substrate, and the marked inhibition of L-Ala-Gly, L-Cys-Gly, and L-Ala-L-Ala-L-Ala hydrolysis by Bestatin further support a role for aminopeptidase M in the generation of L-cysteine from L-Cys-Gly. These results suggest that the drug-resistant tumor cell has developed an efficient mechanism for maintenance of elevated GSH which involves both gamma-glutamyl transpeptidase-initiated catabolism of GSH to cysteine and its reutilization by gamma-glutamylcysteine synthetase.
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PMID:Elevation of glutathione in phenylalanine mustard-resistant murine L1210 leukemia cells. 366 23

When RBL-1 cells were incubated with L-cysteine (7.5 mM) and the ionophore A23187, the slow reacting substances SRS-GSH and SRS-Cys-Gly were formed. When L-cysteine was omitted in the incubation, SRS-GSH and SRS-Cys were isolated but only a trace amount of SRS-Cys-Gly was detectable. Each of the characterized SRSs was accompanied by an as yet uncharacterized structural isomer showing UV absorption at 278 nm. L-Cysteine and other thiols inhibited an aminopeptidase that transforms the highly bioactive SRS of anaphylaxis (SRS-Cys-Gly) into the less bioactive SRS-Cys. SRS-GSH, SRS-Cys-Gly, and SRS-Cys may be readily distinguished from each other by means of their bioactivities, antagonism by FPL 55712, and relative susceptibilities to the actions of soybean lipoxygenase, microsome-bound leucine aminopeptidase, and gamma-glutamyl transpeptidase.
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PMID:Characterization of slow reacting substances (SRSs) of rat basophilic leukemia (RBL-1) cells: effect of cysteine on SRS profile. 610 81

The reactive intermediate of aflatoxin B1 (AFB1) forms a glutathione conjugate (AFB1-GSH) and this has been shown to be a substrate for gamma-glutamyl transpeptidase (GGT) in vitro. This study describes the biliary excretion of AFB1-GSH and the product of GGT activity, the cysteinylglycyl conjugate (AFB1-Cys-Gly), following i.v. injection of AFB1 (5 mumol kg-1) in control male rats and in rats that had been maintained on a toxic diet containing 4 p.p.m. AFB1 for 10-12 weeks prior to the experiment. AFB1 metabolites in the bile were analyzed by reverse phase h.p.l.c. and GGT activity in the liver was assessed histochemically and by quantitative fluorimetric assay. In the control male rats (n = 6) AFB1-GSH and AFB1-Cys-Gly together were detected as 4.2 +/- 2.3% of the i.v. dose over the first two hours of bile collection (AFB1-GSH:AFB1-Cys-Gly, 5.5:1). GGT activity (38.2 +/- 7.9 nmol product formed/g liver) was located in the bile duct epithelium. The group maintained on a toxic diet (n = 2) showed higher levels of AFB1-Cys-Gly (AFB1-GSH:AFB1-Cys-Gly, 1:1). GGT activity was elevated (5-10 x control levels) and located in numerous foci throughout the liver. The involvement of GGT in the biliary excretion of AFB1-Cys-Gly was demonstrated by in vivo inhibition of GGT by administering AT125 to a group of animals (n = 3) 15 min prior to the injection of AFB1. Histochemical and quantitative estimation of GGT confirmed total inhibition throughout the liver and conversion of AFB1-GSH to AFB1-Cys-Gly was almost completely blocked. Female Fischer 344 rats (n = 3) showed slightly elevated AFB1-Cys-Gly excretion and higher GGT activity (79.3 +/- 26.3 nmol/min/g liver) compared to control male rats.
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PMID:Effect of manipulation of gamma-glutamyl transpeptidase levels on biliary excretion of aflatoxin B1 conjugates. 614 25

Plants and the fission yeast Schizosaccharomyces pombe synthesize small cadmium-binding peptides, called phytochelatins, in response to cadmium. Derived from glutathione (GSH: gamma-Glu-Cys-Gly), they have the general structure (gamma-Glu-Cys)nGly, where n is 2-11. In order to study the biosynthesis of phytochelatins, we used the mutagen N-methyl-N'-nitro-N nitrosoguanidine (MNNG) to select mutants with a lowered GSH content. GSH-deficient mutants show a Cd-sensitive phenotype, whereas resistance to Cu is only slightly influenced. These Cd-sensitive mutants contain 2-15% of the wild-type GSH level. For three mutants a lowered activity of gamma-glutamylcysteine synthetase was measured. One of the mutants was transformed to Cd-resistance and the complementing fragment was analyzed further. The complementing fragment hybridized with chromosome III. In the transformants, GSH content was restored up to wild-type levels, whereas the activity of gamma-glutamylcysteine synthetase was significantly increased compared with the wild-type. Possible mechanisms for Cd-resistance in the transformants are discussed.
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PMID:The role of glutathione biosynthesis in heavy metal resistance in the fission yeast Schizosaccharomyces pombe. 791 18

Low-molecular-mass thiols, such as glutathione (GSH), and their associated disulfides are ubiquitous in nature, and based upon the many known functions of these compounds, their identification and accurate measurement is essential. Our objectives were to develop a simple method for the simultaneous measurement of thiols and disulfides in biological samples using HPLC with dual electrochemical detection (HPLC-DED). Particular emphasis was placed on the applicability to a wide variety of important GSH-related thiols and disulfides, including gamma-Glu-Cys, Cys-Gly, their disulfides, and the mixed disulfide of glutathione and cysteine (CSSG), validation on different types of biological samples, maintenance of chromatographic resolution and reproducibility with routine and extended use, and enhancement of assay sensitivity. To this end, optimal HPLC conditions including mobile phase, column, and electrode polishing procedures were established and the method was applied to, and validated on a variety of biological samples. This improved methodology should prove to be a useful tool in studies on the metabolism of GSH and other thiols and disulfides and their role in cellular homeostasis and disease processes.
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PMID:Determination of thiols and disulfides using high-performance liquid chromatography with electrochemical detection. 859 Sep 40

The tripeptide glutathione (gamma-L-Glu-L-Cys-Gly, GSH) is an important intracellular reducing agent for Cu(II) and complexation agent for Cu(I). We have studied the complexation of Cu(I) to GSH in aqueous solution at a range of pH values and Cu(I):GSH molar ratios by 1H-NMR and 13C-NMR spectroscopy and X-ray absorption spectroscopy. The NMR data are consistent with formation of a complex with approximate 1:1 stoichiometry [Cu(SG)] as the major species with only thiolate sulfur of GSH binding to Cu(I). The rate of exchange of GSH with GS-Cu was determined to 13 s(-1) at 283 K, pH 6.8. X-ray absorption spectroscopic measurements showed that Cu(I) is coordinated to 3.1+/-0.3 sulfur atoms at approximately 0.222 nm in solutions (and solids) containing GSH:Cu in 1:1 and 2:1 mol ratios. The possible structures of polymeric Cu(I)-glutathione complexes are discussed. The high thermodynamic stability of Cu(I)-S bonds in Cu(I)-glutathione complexes coupled with their kinetic lability may provide efficient and specific pathways for the transport of copper in cells.
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PMID:1H,13C-NMR and X-ray absorption studies of copper(I) glutathione complexes. 861 47

A set of heavy-metal-complexing peptides was isolated from plants and plant suspension cultures. The structure of these peptides was established as (gamma-glutamic acid-cysteine)n-glycine (n = 2-11) [(gamma-Glu-Cys)n-Gly]. These peptides appear upon induction of plants with metals of the transition and main groups (Ib-Va, Z = 29-83) of the periodic table of elements. These peptides, called phytochelatins (PC), are induced in all autotrophic plants so far analyzed, as well as in select fungi. Some species of the order Fabales and the family Poaceae synthesize aberrant PC that contain, at their C-terminal end, either beta-alanine, serine or glutamic acid. For this group of peptides the name iso-PC is proposed. The biosynthesis of PC proceeds by metal activation of a constitutive enzyme that uses glutathione (GSH) as a substrate; this enzyme is a gamma-glutamylcysteine dipeptidyl transpeptidase which was given the trivial name PC synthase. It catalyzes the following reaction: gamma-Glu-Cys-Gly + (gamma-Glu-Cys)n-Gly-->(gamma-Glu-Cys)n+1-Gly + Gly. The plant vacuole is the transient storage compartment for these peptides. They probably dissociate, and the metal-free peptide is subsequently degraded. Sequestration of heavy metals by PC confers protection for heavy-metal-sensitive enzymes. The isolation of a Cd(2+)-sensitive cadl mutant of Arabidopsis thaliana, that is deficient in PC synthase, demonstrates conclusively the importance of PC for heavy metal tolerance. In spite of the fact that nucleic acid sequences and proteins are found in higher plants that have distant homology to animal metallothioneins, there is absolutely no experimental evidence that these "plant metallothioneins' are involved in the detoxification of heavy metals. PC synthase will be an interesting target for biotechnological modification of heavy metal tolerance in higher plants.
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PMID:Heavy metal detoxification in higher plants--a review. 895 25

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