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)

Peroxynitrite, formed by reaction of superoxide and nitric oxide, appears to be an important tissue-damaging species generated at sites of inflammation. In this paper, we compare the abilities of several biological antioxidants to protect against peroxynitrite-dependent inactivation of alpha 1-antiproteinase, and to inhibit tyrosine nitration upon addition of peroxynitrite. GSH and ascorbate protected efficiently in both systems. Uric acid inhibited tyrosine nitration but not alpha 1-antiproteinase inactivation. The possibility that ascorbic acid is an important scavenger of reactive nitrogen species in vivo is discussed.
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PMID:Protection against peroxynitrite-dependent tyrosine nitration and alpha 1-antiproteinase inactivation by ascorbic acid. A comparison with other biological antioxidants. 888 93

Most in vitro studies of the modification of radiation damage to DNA by oxygen and reduced thiol compounds have excluded non-thiol .OH scavengers. However, the non-thiol .OH scavengers are known to be very effective radiation protectors and are present in cells in near molar concentrations. To better relate data obtained from an in vitro system to data at the intracellular level, we have carried out simultaneous measurements of single and double-strand breaks (SSBs and DSBs) in a model system using closed-circular supercoiled SV40 DNA (25 micrograms/ml) in aqueous solution. Observations were made in the presence and absence of oxygen and over wide concentration ranges encompassing intracellular conditions of both glutathione (GSH), the dominant soluble intracellular reduced thiol compound, and glycerol, a widely used poly-alcohol non-thiol .OH scavenger. The dose-response curves for both SSBs and DSBs in either air or nitrogen are predominantly linear when 75 or 750 mM glycerol is combined with 0-20 mM GSH. Glutathione together with glycerol shows a concentration-dependent preferential protection in nitrogen compared to air against radiation-induced SSBs and DSBs, qualitatively similar to our prior observations at comparable concentrations of GSH alone (Ayene et al., Radiat. Res. 144, 1-8, 1995). With GSH alone, we observed peak oxygen enhancement ratios (OERs) of 6.5 and 8.0 for SSBs and DSBs, respectively, at 5 mM GSH. In contrast, we observed previously that glycerol alone showed a preferential protection against radiation-induced SSBs and DSBs in air compared to nitrogen (Ayene et al., Radiat. Res. 142, 133-143, 1995). In the presence of 750 mM glycerol, approximately equivalent to the total effective concentration of non-thiol .OH scavengers in the cell, we now observe that the OER for radiation-induced DSBs increases from 1.2 at 0.5 mM GSH to 3.3 at 5.0 mM. This roughly parallels the dependence of the OER on [GSH] reported for cell survival. A possible mechanism for the lower OER at higher .OH scavenging efficiency is discussed.
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PMID:Simulation of the cellular oxygen effect with an SV40 DNA model system using DNA strand breaks as an end point. 889 76

Administration of thioformamide (TFA) (> 2 mmol/kg, sc) in combination with DL-buthionine sulfoximine (BSO) (4 mmol/kg, i.p.), an inhibitor of glutathione (GSH) synthesis, caused kidney injury in male mice. The injury was characterized by tubular necrosis, increases in relative kidney weight and serum urea nitrogen concentration, and a decrease in renal GSH concentration. In contrast to results in male mice, no overt nephrotoxic effects were observed in female mice given TFA in combination with BSO. These features of nephrotoxicity were very similar to those reported for thiabendazole and other nephrotoxic thiazoles in mice depleted of GSH by treatment with BSO; this resemblance supports the suggestion that TFA as a ring cleavage metabolite, or a further metabolite thereof, is responsible for the toxicity of the nephrotoxic thiazoles (Mizutani, T., Yoshida, K., and Kawazoe, S. (1993) Chem. Res. Toxicol. 6, 174-179).
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PMID:Nephrotoxicity of thioformamide, a proximate toxicant of nephrotoxic thiazoles, in mice depleted of glutathione. 894 17

S-Nitrosothiols have generated considerable interest due to their ability to act as nitric oxide (NO) donors and due to their possible involvement in bioregulatory systems-e.g., NO transfer reactions. Elucidation of the reaction pathways involved in the modification of the thiol group by S-nitrosothiols is important for understanding the role of S-nitroso compounds in vivo. The modification of glutathione (GSH) in the presence of S-nitrosoglutathione (GSNO) was examined as a model reaction. Incubation of GSNO (1 mM) with GSH at various concentrations (1-10 mM) in phosphate buffer (pH 7.4) yielded oxidized glutathione, nitrite, nitrous oxide, and ammonia as end products. The product yields were dependent on the concentrations of GSH and oxygen. Transient signals corresponding to GSH conjugates, which increased by one mass unit when the reaction was carried out with 15N-labeled GSNO, were identified by electrospray ionization mass spectrometry. When morpholine was present in the reaction system, N-nitrosomorpholine was formed. Increasing concentrations of either phosphate or GSH led to lower yields of N-nitrosomorpholine. The inhibitory effect of phosphate may be due to reaction with the nitrosating agent, nitrous anhydride (N2O3), formed by oxidation of NO. This supports the release of NO during the reaction of GSNO with GSH. The products noted above account quantitatively for virtually all of the GSNO nitrogen consumed during the reaction, and it is now possible to construct a complete set of pathways for the complex transformations arising from GSNO + GSH.
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PMID:The chemistry of the S-nitrosoglutathione/glutathione system. 896 68

To determine if nitrogen dioxide (NO2), a gaseous free radical, modifies the protective antioxidant pool present in respiratory tract lining fluids, a random, double-blind study utilizing flexible fiberoptic bronchoscopy with bronchial and bronchoalveolar lavage was performed. Healthy, nonsmoking, asymptomatic subjects were exposed to filtered air and 2 ppm NO2 for 4 h on separate occasions. To examine the kinetics of the NO2-induced antioxidant reactions, 44 subjects were randomly assigned to one of three groups. Bronchoscopy was performed 1.5 h (group 1), 6 h (group 2) or 24 h (group 3) after each exposure. Reduced glutathione (GSH), uric acid, and ascorbic acid concentrations were determined in both bronchial and bronchoalveolar lavage fluid fractions. In addition, bronchoalveolar lavage fluid was screened for malondialdehyde as a marker of lipid peroxidation. Exposure to NO2 resulted in a rapid (1.5 h) loss of uric acid from the bronchial region, however by 6 h after exposure it had increased significantly above control uric acid concentration in this region. At 24 h after exposure, uric acid concentration had returned to the control level. A similar response of uric acid to NO2 was seen in the bronchoalveolar region. Ascorbic acid was also decreased in bronchial and bronchoalveolar lavage fluids 1.5 h after exposure to NO2, but returned to control values by 6 h. In marked contrast, significant increases in GSH concentration were seen at 1.5 and 6 h in bronchial lavage fluid after exposure to NO2, which subsequently returned to control levels by 24 h. No change in bronchoalveolar lavage fluid GSH concentration or malondialdehyde content was seen after NO2 exposure. These data support the view that antioxidants present in lung fluids react with, and hence modulate the impact of, NO2 on the lung.
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PMID:Antioxidant kinetics in lung lavage fluid following exposure of humans to nitrogen dioxide. 897 Mar 58

Chronic lymphocytic leukemia (CLL) is the most common leukemia in Western countries but the clinical presentation and rate of disease progression are highly variable. When treatment is required the most commonly used therapy is the nitrogen mustard alkylating agent, chlorambucil (CLB), with or without prednisone. Although CLB has been used in the treatment of CLL for forty years the exact mechanism of action of this agent in CLL is still unclear. Studies in proliferating model tumor systems have demonstrated that CLB can bind to a variety of cellular structures such as membranes, RNA, proteins and DNA; however, DNA crosslinking appears to be most important for antitumor activity in these systems. In addition, a number of different mechanisms can contribute to CLB resistance in these tumor models including increased drug metabolism, DNA repair and CLB detoxification resulting from elevated levels of glutathione (GSH) and glutathione S-transferase (GST) activity. However, unlike tumor models in vitro, CLL cells are generally not proliferating and studies in CLL cells have raised questions about the hypothesis that DNA crosslinking is the major mechanism of antitumor action for CLB in this disease. CLB induces apoptosis in CLL cells and this appears to correlate with the clinical effects of this agent. Thus, alkylation of cellular targets other than DNA, which can also induce apoptosis, may contribute to the activity of CLB. Alterations in genes such as p53, mdm-2, bcl-2 and bax which control entry into apoptosis may cause drug resistance. Loss of wild-type p53 by mutation or deletion occurs in 10 to 15% of CLL patients and appears to correlate strongly with poor clinical response to CLB. The induction of apoptosis by CLB is paralleled by an increase in P53 and Mdm-2 but this increase in not observed in patients with p53 mutations indicating that with high drug concentrations CLB can produce cell death through P53 independent pathways. The level of Mdm-2 mRNA in the CLL cells is not a useful predictor of drug sensitivity. In addition, although Bax and Bcl-2 are important regulators of apoptosis and the levels of these proteins are elevated in CLL cells compared with normal B cells, the levels of Bax and Bcl-2, or the Bax:Bcl-2 ratio, are not important determinants of drug sensitivity in this leukemia. Finally, whereas CLB and nucleoside analogs may produce cell death in CLL by a P53 dependent pathway other agents, such as dexamethasone or vincristine, may act through P53-independent pathways.
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PMID:Chlorambucil in chronic lymphocytic leukemia: mechanism of action. 903 Oct 99

In adult female rats various kidney functions were measured 3 weeks after 5/6 nephrectomy (5/6 NX). The distinct rises in blood urea nitrogen and in renal excretion of proteins indicate the impairment of the kidney. In 5/6 NX rats, the renal excretion of creatinine, glucosaminoglycan, and of p-aminohippurate was diminished. The concentrations of hydroxypyroline and of free hydrogen ions were distinctly increased in urine samples from 5/6 NX rats. The concentration of lipid peroxides was enhanced in kidney tissue whereas 3 weeks after 5/6 NX the concentration of GSH and GSSG in the remnant kidney tissue was unchanged. Long-term administration of vitamin E increased its concentration in plasma, kidney, and liver. Nevertheless, daily treatment with vitamin E (1 or 10 mg/100 g b.w. s.c. for 5 weeks) did not reduce the degree of impairment of kidney function following 5/6 NX.
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PMID:Kidney function in rats after 5/6 nephrectomy (5/6 NX); effort of treatment with vitamin E. 908 88

Studies have been conducted on nitrite-induced oxidation of corneal thiols and reduced glutathione (GSH). Oxidation of GSH in the presence of nitrite (NaNO2) was minimal in the dark. Exposure of GSH to UV (365 nm) in the presence of nitrite substantially accelerated this oxidation; only < 10% of the original GSH remained at the end of 20 minutes. A similar Thiol depletion was observed in the case of corneal epithelial extracts irradiated with UV in the presence of the nitrite. Nitrite is therefore considered to be a potent phototoxicant with possible pathophysiological implications to the external eye tissues. Ascorbate was found to be effective in preventing thiol oxidation, suggesting the possibility of preventing nitrogen oxide-based smog irritation to the eye by this physiologically compatible antioxidant.
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PMID:Nitrite-induced photo-oxidation of thiol and its implications in smog toxicity to the eye: prevention by ascorbate. 909 Jun 18

When the yeast Saccharomyces cerevisiae sigma 1278b was starved for nitrogen, the total glutathione (GSH) pool increased from 7 to 17 nmol (mg dry wt)-1 during the first 2 h and then declined. More than 90% of the total GSH shifted towards the central vacuole during this time. This transient stimulation was not observed in the presence of buthionine-(S,R)-sulphoximine (BSO), a specific transition-state-analogue inhibitor of gamma-glutamylcysteine synthase (gamma-GCS), nor in a mutant strain deficient in this enzyme- gamma-Glutamyltranspeptidase (gamma-GT), a vacuolar enzyme responsible for the initial step of GSH degradation, was derepressed during nitrogen starvation. This mechanism can apparently enable the starved yeast cell to use the constituent amino acids from GSH which accumulate in the vacuole to satisfy its growth requirements for nitrogen.
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PMID:An important role for glutathione and gamma-glutamyltranspeptidase in the supply of growth requirements during nitrogen starvation of the yeast Saccharomyces cerevisiae. 920 64

The aim of this study was to determine the kinetics of the reactions between the gaseous free-radical pollutant, nitrogen dioxide (NO2), and the water-soluble antioxidants present in respiratory tract lining fluid (RTLF). Samples of RTLF, recovered from 12 subjects (mean age 54.1+/-16.3 years; eight male, four female) as bronchoalveolar lavage (BAL) fluid were exposed ex vivo to NO2 [50-1000 parts per billion (ppb)] for 4 h. For comparison, similar exposures were carried out with single and composite solutions with relevant RTLF antioxidant concentrations. Ascorbic acid (AA), uric acid (UA), GSH depletion, and GSSG and malondialdehyde (MDA) formation were determined with time. In the three models, UA and AA were consumed in a time- and NO2-concentration-related fashion. In addition, their rate of depletion correlated positively with their initial concentration (UA, r=0.92, P<0.05; AA, r=0.94, P<0.05). Little difference was found between the rate of loss of AA (2.2+/-0. 2; 1.9+/-0.5; 1.4+/-0.3 nmol.l-1.h-1.ppb-1), and that of UA (2.4+/-0. 2; 2.1+/-0.6; 1.3+/-0.2 nmol.l-1.h-1.ppb-1) in the three RTLF models examined (single, composite, BAL fluid respectively). GSH loss from BAL fluid (0.2+/-0.1) was significantly less than that seen in either single (1.4+/-0.3) or composite (1.2+/-0.5 nmol.l-1.h-1. ppb-1) antioxidant solutions. In all cases, GSH consumption was significantly less than AA or UA. As model complexity increased, the rate of individual antioxidant loss decreased, such that in BAL fluid, AA, UA and GSH consumption rates were significantly less (P<0. 05) than in the pure or composite antioxidant mixtures. In BAL fluid, little GSSG production was observed at any NO2 concentration. MDA concentration, determined as a measure of lipid peroxidation, did not change following exposure to 50, 150 or 400 ppb NO2, but increased MDA was seen in BAL fluid from 8/12 subjects following exposure to 1000 ppb NO2 for 1 h or more. In conclusion, NO2, at environmentally relevant concentrations, depletes BAL fluid of the antioxidant defences, UA and AA, but not GSH.
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PMID:Nitrogen dioxide depletes uric acid and ascorbic acid but not glutathione from lung lining fluid. 922 34

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