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)

Addition of silver nitrate or silver lactate to freshly isolated hepatocytes caused dose-dependent loss of cell viability, measured by trypan blue exclusion, at concentrations within 30-70 microM. Silver cytotoxicity was accompanied by a decrease in hepatic thiol concentration and an increase in lipid peroxidation. Treatment of hepatocytes with the reduced glutathione (GSH)-depleting agent diethylmaleate markedly increased their vulnerability to silver toxicity whereas protective effects were produced by the thiol-reducing agent, dithiothreitol. Both alpha-tocopherol, which protected from the onset of silver-associated lipid peroxidation, and the iron chelator agent, deferoxamine failed to prevent loss of cell viability. These data suggest that perturbation of intracellular thiol homeostasis may play a critical role in the mechanism underlying silver-induced lethal damage to isolated rat hepatocytes.
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PMID:Effects of silver in isolated rat hepatocytes. 337 53

Cultures of some aerobically grown strains of Salmonella typhimurium and Escherichia coli contain up to 24 microM extracellular glutathione (GSH) [Owens RO, Hartman PE (1985): Environ Mutagen 7(Suppl 3): 47] in addition to having intracellular GSH concentrations in the millimolar range. The addition of 26 microM GSH to cultures of Salmonella typhimurium strain TA1534 partially protected the bacteria from the toxic effects causing growth delay by 54 microM N-methyl-N'-nitro-N-nitrosoguanidine (MNNG). When MNNG was preincubated with equimolar GSH, the mutagenicity of the MNNG was neutralized. The addition of micromolar GSH to cultures of an Escherichia coli GSH- strain protected the cells from growth inhibition by micromolar concentrations of mercuric chloride, methyl mercuric chloride, silver nitrate, cisplatin, cadmium chloride, cadmium sulfate, and iodoacetamide. In the cases of mercuric chloride, cisplatin, MNNG, silver nitrate, and iodoacetamide, reaction products with GSH were detected by paper chromatography. In contrast to reduced GSH, micromolar concentrations of oxidized glutathione (GSSG) provided little or no protection and formed no detectable reaction products. Export of GSH by enteric bacteria may provide an important defense mechanism against exogenous toxic agents otherwise active in the micromolar range.
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PMID:Glutathione: a protective agent in Salmonella typhimurium and Escherichia coli as measured by mutagenicity and by growth delay assays. 353 25

Glutathione (GSH) S-transferase is a major detoxification enzyme system that catalyzes the binding of a variety of electrophiles, including reactive forms of chemical carcinogens, to GSH. Green coffee beans fed in the diet induced increased GSH S-transferase activity in the mucosa of the small intestine and in the liver of mice. A potent compound that induces increased GSH S-transferase activity was isolated from green coffee beans and identified as kahweol palmitate. The corresponding free alcohol, kahweol, and its synthetic monoacetate are also potent inducers of the activity of GSH S-transferase. A similar diterpene ester, cafestol palmitate, isolated from green coffee beans was active but less so than was kahweol palmitate. Likewise, the corresponding alcohol, cafestol, and its monoacetate showed moderate potency as inducers of increased GSH S-transferase activity. Kahweol palmitate and cafestol palmitate were extracted from green coffee beans into petroleum ether. The petroleum ether extract was fractionated by preparative normal-phase and reverse-phase liquid chromatographies successively. Final purification with silver nitrate-impregnated thin-layer chromatography yielded the pure palmitates of cafestol and kahweol. The structures were determined by examination of the spectroscopic data of the esters and their parent alcohols and by derivative comparison.
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PMID:Isolation and identification of kahweol palmitate and cafestol palmitate as active constituents of green coffee beans that enhance glutathione S-transferase activity in the mouse. 705 95

Demolybdo nitrate reductase (also called cyt c reductase) of Chlorella vulgaris has been converted to active nitrate reductase by insertion of Mo from Na2MoO4 in vitro. A procedure is described which consistently gives about 0.3 unit of nitrate reductase from about 6 units of cyt c reductase, a yield of 30% of the maximum expected, if we calculate on a basis of a ratio of 6 to 1 for the cyt c reductase/nitrate reductase of purified normal enzyme. The demolybdoenzyme is incubated for 30 s at 31 degrees C with molybdate and reduced glutathione (GSH) at pH 4.8, and the pH is then raised to 7, and the incubation continued for 20 min. At the acid pH, there must be a partial denaturation or unfolding which permits Mo insertion, with a refolding to active enzyme at the higher pH. The GSH is not essential for activation, but in its absence the yield of active enzyme was about 50% lower. Experiments with labeled GSH showed that no GSH was incorporated into the protein during the activation procedure. Although the enzyme activity measurements suggested that only 30% of the enzyme was activated, measurements with 99Mo showed that there was one Mo incorporated per subunit weight of 90,000. The Km for nitrate of the activated nitrate reductase was identical with the Km for nitrate of the normal enzyme. On gradient centrifugation, activated nitrate reductase, cyt c reductase, and normal nitrate reductase all behaved identically.
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PMID:Molybdenum insertion in vitro in demolybdo nitrate reductase of Chlorella vulgaris. 719 75

1. The metabolism of a nitrate ester-substituted dihydropyridine derivative (NND) in vitro was characterized with rabbit hepatic microsomes and cytosol. 2. Denitration activity was located in both the microsomal and cytosolic fractions, whereas oxidation to the pyridine analogue was solely located in the microsomal fraction. 3. Oxidation to the pyridine analogue required NADPH and was inhibited by carbon monoxide, miconazole and SKF-525A, suggesting that oxidation was catalysed by P450. 4. Denitration activity in the microsomes required either NADPH or GSH. Together with these results, responses to various inhibitors indicate participation of both P450 and glutathione S-transferase (GST). 5. Denitration activity in cytosol was activated by glutathione (GSH), and by dithiothreitol (DTT) to a greater extent. GSH-dependent denitration was inhibited by S-hexyl GSH, an inhibitor of GST, but DTT-dependent denitration was not. Moreover, the formation patterns of the mono-denitrated metabolites, M1 and M2, were shown to be different in each incubation condition. 6. These results suggest that the denitration of NND in cytosol could be catalysed by a GSH-independent enzyme as well as the GSH-dependent enzyme, GST.
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PMID:Metabolism of a nitrate ester, dihydropyridine derivative in rabbit hepatic microsomes and cytosol. 761 54

The denitration of organic nitrate esters in rabbit hepatic cytosol was characterized. Sephadex G-200 chromatography of ammonium sulfate precipitate (40-80%) from hepatic cytosol demonstrated the presence of two distinct activities (peak I and peak II) responsible for the denitration of nitroglycerin (NTG) and isosorbide dinitrate (ISDN). The denitration of peak I required dithiothreitol (DTT), but not glutathione (GSH), and was not inhibited by S-alkyl GSH, an inhibitor of glutathione S-transferase (GST). Whereas, the denitration activity of peak II was potentiated by GSH, and was inhibited by S-alkyl GSH. These results strongly suggest that the denitration of organic nitrate esters, such as NTG and ISDN, can be catalyzed by at least two enzymes, GSH-independent denitration (peak I) and the GSH-dependent denitration (peak II, GST), in rabbit hepatic cytosol. The denitration activity of peak I was inhibited by SH-modified reagent, indicating that free thiol(s) is (are) critical for expression of the denitration activity. Also, in rabbit vascular cytosol, the cofactor requirement for denitration and response to S-hexyl GSH suggest the participation of GSH-independent enzyme which is responsible for the denitration of organic nitrate esters.
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PMID:GSH-independent denitration of organic nitrate esters in rabbit hepatic and vascular cytosol. 767 Aug 47

Six mercury compounds [HgCl2 (MC), Hg(CH3COO)2 (MA), Hg(NO3)2 (MN), C2H5HgSC6H4COONa (EMT), C6H5HgOCOCH3 (PMA) and CH3CIHg (MMC)] were studied using two kidney cell lines (MDCK and LLC-PK1), primary cultures of human proximal tubular cells (hPTC) and nonrenal cell lines (SAOS and Hep G2). Cell damage was measured with four different tests: neutral red uptake, mitochondrial dehydrogenase activity (MTT conversion), thymidine incorporation and protein content. Relative toxicity was established by the determination of the concentration of test compound inducing a 50% reduction of the parameter considered (EC50 value). Two groups could be distinguished: PMA, EMT and MMC are one order of magnitude more toxic than MC, MN and MA. Cellular uptake was measured by the HPLC-hybrid generation AAS after 24 hours treatment with 1.5 microM MC, MMC, PMA or EMT in MDCK cells, revealing Hg concentrations of 42.8 +/- 2.5 ng/mg protein for MC, 596.9 +/- 87.8 ng/mg protein for MMC, 269.8 +/- 75.7 ng/mg protein for PMA and of 115.9 +/- 25.2 ng/mg protein for EMT. Cytotoxicity was positively correlated with cellular uptake. The effect of the cellular GSH content on the toxicity of mercury was studied using the GSH synthesis inhibitor L-buthionine sulfoximine (BSO). In all cases an enhanced cytotoxicity was observed after BSO treatment. 2-Oxo-4-thiazolidine carboxylic acid (OTC) was used as a substrate for the GSH synthesis. Although OTC did not enhance the GSH content, the cytotoxicity of MC, MN and MA decreased significantly, no changes were observed for the other mercurials.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cytotoxicity of mercury compounds in LLC-PK1, MDCK and human proximal tubular cells. 772 29

The denitration of a dihydropyridine derivative having two nitrate ester groups, 2-nitroxypropyl 3-nitrooxypropyl 1,4-dihydro-2,6-dimethyl-4-(3-nitrophenyl)-3, 5-pyridinedicarboxylate (NND), by rabbit hepatic cytosol was investigated. Sephadex G-150 chromatography of ammonium sulfate precipitate (30-60%) from the cytosol demonstrated the presence of two distinct activities (peak I and peak II) responsible for denitration of [14C]-NND. The first peak, peak I, was observed in the presence of dithiothreitol (DTT), but not in the presence of glutathione (GSH). Moreover, the denitration activity of peak I was not inhibited by S-hexyl GSH, an inhibitor of GSH S-transferase (GST), indicating that peak I possessed no GST activity. In contrast, the denitration activity of peak II, having GST activity, required GSH and was inhibited by S-hexyl GSH. These results strongly suggest that the GSH-independent enzyme system(s), in addition to GST, is responsible for denitration of nitrate esters of NND.
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PMID:GSH-independent denitration of the nitrate ester of a dihydropyridine derivative in rabbit hepatic cytosol. 784 Jul 90

To determine whether Hg accumulated in renal cells is secreted into the lumen of proximal tubules with intracellular glutathione (GSH) and reabsorbed by tubular cells via a gamma-glutamyltranspeptidase (gamma-GTP)-dependent process as in the case of GSH itself, the effect of postadministration of acivicin (1 mmol/kg i.p.), a gamma-GTP inhibitor, on renal Hg accumulation was investigated in mice. Renal Hg content 4 hr after injection of CH3HgCl or HgCl2 (5 mumol/kg i.v.) was decreased to 35 or 44% of control, respectively, but urinary Hg excretion was increased by acivicin administration 2 hr after injection of the mercurials. When renal GSH was decreased to 19% of control by treatment with DL-buthionine-S,R-sulfoximine (4 mmol/kg s.c.) 2 hr before acivicin injection, the increase in urinary Hg excretion caused by acivicin was suppressed. Acivicin administration 24 hr after injection of the mercurials decreased renal methylmercury content determined 2 hr after acivicin injection and increased urinary Hg excretion. The postadministration of acivicin, however, did not affect the renal content of inorganic Hg which predominantly bound to metallothionein (MT) induced by HgCl2 itself. Pretreatment with Bi(NO3)3 as a renal MT inducer diminished the effect of acivicin administered 2 hr after HgCl2 injection on renal Hg content and urinary excretion. These results suggest that methylmercury and inorganic Hg bound to ligands other than MT in renal cytosol may be secreted into the lumen of proximal tubules with intracellular GSH and be reabsorbed via a gamma-GTP-dependent process.
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PMID:Tubular secretion and reabsorption of mercury compounds in mouse kidney. 809 52

Results from in vitro experiments suggest that development of nitrate tolerance is due to a depletion of vascular thiol compounds (ie, cysteine and glutathione [GSH]) necessary for the bioconversion of organic nitrates. However, it is unknown whether in vivo tolerance development is associated with changes in thiol levels. This study measures plasma and vessel tissue GSH and cysteine levels in nontolerant rats, nitrate-tolerant rats, and rats treated with the two characteristically different thiol donors N-acetyl-L-cysteine and L-2-oxothiazolidine-4-carboxylic acid (OXO). Chronically catheterized conscious rats received an intravenous infusion of either nitroglycerin (NTG, 0.2 mg/h) or matching placebo for 3 days. At day 3, the hypotensive effect of 2.5 mg NTG/kg was decreased by 74 +/- 6% (mean +/- SEM, P < .05) in the NTG-treated group (n = 7), indicating the development of tolerance. No change in the hypotensive effect of NTG was seen in the placebo group (n = 6, P > .05). Hemodynamic tolerance is not associated with changes in aorta cysteine or GSH levels as compared with the placebo group (cysteine, 77 +/- 14 versus 57 +/- 11 [mean + SEM] nmol/g; GSH, 414 +/- 62 versus 399 +/- 89 nmol/g; P > .05). However, the increase in vascular thiol levels seen after OXO treatment in nontolerant rats is completely absent in nitrate-tolerant animals.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Nitrate tolerance in vivo is not associated with depletion of arterial or venous thiol levels. 826 84

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