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 GSH concentration of rabbit erythrocytes was monitored under conditions of large net transport of alanine, phenylalane and lysine in the absence of glucose. In no case was there an appreciable alteration in GSH concentration during amino acid uptake. It is suggested that the gamma-glutamyltransferase-gamma-glutamylcyclotransferase pathway does not participate in amino acid transport by these cells.
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PMID:Evidence against the participation of the gamma-glutamyltransferase-gamma-glutamylcylclotransferase pathway in amino acid transport by rabbit erythrocytes. 0

Previous studies from our laboratory have shown that ethylene, vinyl fluoride monomer (VFM), vinyl chloride monomer (VCM), and vinyl bromide monomer (VBM) are all acutely hepatotoxic in rats pretreated with polychlorinated biphenyl (PCB). The time course of hepatic injury development after exposure and several parameters, environmental and chemical, affecting this toxicity were evaluated in the work reported here. Liver injury, as measured by serum alanine-alpha-ketoglutarate transaminase (SAKT) or sorbitol dehydrogenase (SDH), develops progressively over a 24-hr period following a 4-hr inhalation exposure of PCB-pretreated rats to ethylene or VCM. Environmental temperature during exposure to VCM does not affect hepatotoxicity or mortality below 30.3 degrees C. At 33.8 degrees C, however, mortality and SAKT are dramatically increased. Overnight fasting, which depletes hepatic glutathione (GSH) of PCB-pretreated rats before exposure to ethylene or VCM, significantly increases the hepatotoxicity of these compounds as measured by SDH. The combined effects of fasting and of trichloropropane epoxide (TCPE), an inhibitor of epoxide hydrase (EH), were also examined. TCPE treatment of fasted PCB-pretreated rats immediately before exposure was synergistic in increasing the acute toxicity of ethylene and VCM. TCPE increased mortality in fed or fasted rats exposed to VFM, but there was no effect of fasting alone. Both fasting and TCPE increased the sensitivity of PCB-pretreated rats to VBM, but there was not a clearly synergistic effect of fasting plus TCPE. These data suggest that the acute toxicity of these compounds is mediated through epoxide intermediates.
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PMID:Acute hepatotoxicity of ethylene and halogenated ethylenes after PCB pretreatment. 41 16

1. Uptake rates for 23 amino acids were measured for both normal (high-GSH) and GSH-deficient (low-GSH) erythrocytes from Finnish Landrace sheep. 2. Compared with high-GSH cells, low-GSH cells had a markedly diminished permeability to D-alanine, L-alanine, alpha-amino-n-butyrate, valine, cysteine, serine, threonine, asparagine, lysine and ornithine. Smaller differences were observed for glycine and proline, whereas uptake of the other amino acids was not significantly different in the two cell types.
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PMID:Amino acid transport in normal and glutathione-deficient sheep erythrocytes. 127 12

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

Plasma taurine and serine decrease following trauma and in severe inflammatory disease. These changes may signify an increase in requirements for sulfur amino acids. We previously demonstrated that cysteine supplementation can restore the impaired ability of rats fed an 8% casein diet to increase hepatic zinc, glutathione (GSH) and protein concentrations in response to tumor necrosis factor alpha (TNF alpha). Here we examined whether serine or taurine produces a similar effect, because serine provides the carbon skeleton of cysteine and taurine is its major metabolite. After 7 d of receiving either a 20% casein diet supplemented with cysteine or an 8% casein diet supplemented with alanine, serine or taurine, rats received an intraperitoneal injection of human TNF alpha. Tumor necrosis factor caused no change in hepatic GSH but resulted in a lower GSH concentration in lung in rats fed the alanine-supplemented diet. Neither taurine nor serine increased liver GSH relative to that in rats fed alanine, but the depression in lung due to TNF injection was lessened. The absolute increase in ceruloplasmin in response to TNF was enhanced in rats fed the alanine-supplemented diet relative to those fed the 20% casein diet. Serine normalized this response. This observation--the effects of taurine and serine on lung GSH and a significant negative correlation between ceruloplasmin and liver and lung GSH concentration in rats fed TNF--suggests that supplemental serine and taurine may improve antioxidant defenses when dietary supplies of cysteine are low but do not influence cysteine availability for a normal response to TNF.
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PMID:Taurine and serine supplementation modulates the metabolic response to tumor necrosis factor alpha in rats fed a low protein diet. 137 44

Five amino acids in proximity to GSH bound in the active-site cavity of human Class Pi glutathione transferase (GST) P1-1 were mutated by oligonucleotide-directed site-specific mutagenesis. The following mutations gave catalytically active mutant proteins with the proper dimeric structure: Arg14----Ala, Lys45----Ala, Gln52----Ala, Gln65----His and Asp99----Asn. The mutation Gln65----Ala was also made, but the protein was not characterized because of its poor catalytic activity. Residues Arg14, Lys45, Gln52 and Gln65 all contribute to binding of glutathione, and the substitutions caused an approx. 10-fold decrease in affinity, corresponding to 5 kJ/mol, except for Arg14, for which the effect was larger. In addition, Arg14 appears to have an important structure role, since the Arg14----Ala mutant demonstrated a significantly lower stability as compared with the wild-type and the other mutant enzymes. Asp99 primarily contributes to catalysis rather than to binding. The kcat./Km-versus-pH profile for the Asp99----Asn mutant is shifted by 0.5 pH unit in the alkaline direction, and it is proposed that Asp99 may participate in proton transfer in the catalytic mechanism. The possibility of redesigning the substrate specificity for GSTs was shown by the fact that the mutant Lys45----Ala displayed a higher catalytic efficiency with GSH monoethyl ester than with its natural substrate, GSH.
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PMID:Contribution of five amino acid residues in the glutathione-binding site to the function of human glutathione transferase P1-1. 163 29

The effects of geniposide pretreatment on both hepatic aflatoxin B1 (AFB1)-DNA binding and AFB1 hepatotoxicity in rats has been examined. For these studies, male Sprague-Dawley rats were treated with AFB1 (2 mg/kg) by i.p. administration, and the different degrees of hepatic damage were revealed by the elevations of levels of serum marker enzymes such as aspartate aminotransferase (AST), alanine amino-transferase (ALT) and gamma-glutamyltranspeptidase (gamma-GT). After pretreatment of animals with geniposide (10 mg/kg) daily for 3 consecutive days, the enzyme elevations were significantly suppressed. This suggested that the geniposide possessed chemopreventive effects on the early acute hepatic damage induced by AFB1. Under these experimental conditions, consistent elevation of the activities of glutathione S-transferase (GST) and gamma-glutamylcysteine synthetase but not glutathione peroxidase (GSH-Px) and gamma-glutamyltranspeptidase were observed. Treatment of rats with geniposide significantly lowered hepatic GSH and GSSG levels, but the ratio of GSH to GSSG was not changed. Geniposide treatment also decreased AFB1-DNA adduct formation in AFB1-treated animals. From these results, we suggest that the protective effect of geniposide on AFB1 hepatotoxicity in rats might be due to the hepatic tissues' defense mechanisms that involve the enhanced GST activity for AFB1 detoxication and induction gamma-glutamylcysteine synthetase for GSH biosynthesis.
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PMID:Suppressive effect of geniposide on the hepatotoxicity and hepatic DNA binding of aflatoxin B1 in rats. 168 34

Lipid peroxidation (LPO) and alterations in cellular systems protecting against oxidative damage were determined in the liver, kidney and skeletal muscle of male F344/NCr rats, 1 h to 3 days after a single intraperitoneal (i.p.) injection of 107 mumol nickel(II)acetate per kg body weight. At 3 h, when tissue nickel concentrations were highest, the following significant (at least, P less than 0.05) effects were observed: in kidney, increased LPO (by 43%), increased renal iron (by 24%), decreased catalase (CAT) and glutathione peroxidase (GSH-Px) activities (both by 15%), decreased glutathione (GSH) concentration (by 20%), decreased glutathione reductase (GSSG-R) activity (by 10%), and increased glutathione-S-transferase (GST) activity (by 44%); the activity of superoxide dismutase (SOD) and gamma-glutamyl transferase (GGT), as well as copper concentration, were not affected. In the liver, nickel effects included increased LPO (by 30%), decreased CAT and GSH-Px activities (both by 15%), decreased GSH level (by 33%), decreased GSSG-R activity (by 10%) and decreased GST activity (by 35%); SOD, GGT, copper, and iron remained unchanged. In muscle, nickel treatment decreased copper content (by 43%) and the SOD activity (by 30%) with no effects on other parameters. In blood, nickel had no effect on CAT and GSH-Px, but increased the activities of alanine-(ALT) and aspartate-(AST) transaminases to 330% and 240% of the background level, respectively. In conclusion, nickel treatment caused profound cell damage as indicated by increased LPO in liver and kidney and leakage of intracellular enzymes, ALT and AST to the blood. The time pattern of the resulting renal and hepatic LPO indicated a possible contribution to its magnitude from an increased concentration of nickel and concurrent inhibition of CAT, GSH-Px and GSSG-R, but not from increased iron or copper levels. The oxidative damage expressed as LPO was highest in the kidney and lowest in the muscle, which concurs with the corresponding ranking of nickel uptake by these tissues.
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PMID:Nickel induced lipid peroxidation in the rat: correlation with nickel effect on antioxidant defense systems. 197 9

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

Since experiments with freshly isolated rat hepatocytes have shown that cellular vitamin E is consumed in response to insult by compounds that induce an oxidative stress only after cellular glutathione (GSH) concentrations have been substantially depleted, experiments were performed to determine whether this sequence of events occurred in response to oxidative insult in vivo. The role that plasma vitamin E plays in the response to chemically induced oxidative injury in vivo was also assessed. Treatments with 40 mg/kg of methyl ethyl ketone peroxide (MEKP) quickly induced lipid peroxidation in vivo and from one to 4 h after treatment caused a depression in the plasma content of vitamin E and the liver content of GSH, as well as signs of toxicity (elevations in serum activities of alanine and aspartate aminotransferases). At these time points however, the liver content of vitamin E was either indistinguishable from or slightly elevated from controls. By 12 to 24 h after treatment the liver content of vitamin E was reduced by 20-25% whereas values for all other indicators had returned toward control levels. Pretreatment of rats with L-buthionine-S,R-sulfoximine, an inhibitor of GSH by 4 or 24 h after treatment, did not alter the time course or extent of hepatic vitamin E depletion that was observed after treatment with MEKP. Other compounds that induce oxidative stress and lipid peroxidation to the liver, carbon tetrachloride and menadione, did not provoke an alteration in hepatic vitamin E levels as compared to controls 1 day after treatment. These findings indicate that depletion of hepatic vitamin E may not occur as an immediate consequence of oxidative insult to the liver and that the depletion of hepatic vitamin E levels may not be related to the extent of prior GSH depletion. Moreover, these findings suggest that alterations in the plasma concentration of vitamin E may not reflect concurrent alterations in hepatic vitamin E levels. A mechanism whereby liver vitamin E stores are mobilized for the maintenance of plasma vitamin E levels is proposed.
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PMID:Modification of hepatic vitamin E stores in vivo. I. Alterations in plasma and liver vitamin E content by methyl ethyl ketone peroxide. 199 Sep 80

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