UMLS:C1260386 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C1260386 (GSH)
38,102 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

N-acetylcysteine (NAC) is rapidly de-acetylated in vivo to cysteine (CYSH), a precursor of glutathione (GSH) which is an antioxidant in cells and body fluids. We investigated the effect of oral administration of N-acetyl cysteine for 5 days on the spontaneous and stimulated generation of hydrogen peroxide (H2O2) and superoxide anion (O2-) from human and rat phagocytic leucocytes. Alveolar macrophages (AM) were obtained by bronchoalveolar lavage (BAL) in control rats and rats given NAC in their drinking water. Neutrophils (PMNL) were harvested from whole blood in normal nonsmoking volunteers before and after NAC was given by mouth. The stimulated release of H2O2 and O2 from both rat AM and human PMN was not changed by administration of NAC. However, a small but significant increase was observed in both the spontaneous generation of O2- from rat AM and the spontaneous generation of H2O2 from human PMNL. Administration of NAC significantly increased cysteine levels in human plasma and rat BAL, but the levels in human PMNL and rat AM after NAC did not differ from control levels. GSH levels were not altered significantly by NAC.
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PMID:Lack of effect of N-acetylcysteine on the release of oxygen radicals from neutrophils and alveolar macrophages. 188

The antimutagenic potential of glutathione (GSH) on mitomycin C (MMC)-induced micronuclei was evaluated in Swiss albino mice using the in vivo bone marrow micronucleus test. Six groups of animals were maintained simultaneously. The first group received distilled water only, the second group of animals received 2 mg/kg MMC and the third group was administered 4 doses of GSH, i.e., 20, 40, 80 and 160 mg/kg. The fourth group of animals received GSH and MMC simultaneously. The fifth and sixth groups received a cumulative dose of GSH followed by MMC after 24 h. The fifth group of animals were killed 6 h after the administration of MMC, while the sixth group were killed 24 h after the administration of MMC. The results clearly show a statistically significant increase in micronuclei in MMC-treated animals and also in animals that received GSH followed by MMC. However, there was a decrease in micronuclei in animals that received GSH and MMC simultaneously. The results clearly indicate that GSH exhibits an antimutagenic property in the presence of MMC. It is also observed the treatment with GSH prior to MMC does have some protective effect.
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PMID:Effect of glutathione on mitomycin C-induced micronuclei in bone marrow erythrocytes of Swiss albino mice. 190 8

The haloacetonitrile, dibromoacetonitrile (DBAN), is a direct-acting genotoxic agent that has been detected in drinking water. In a time course study, male Sprague-Dawley rats were treated with DBAN (75 mg/kg PO), and killed at 0.5, 1, 2, and 4 hr after treatment. In a dose response study, animals were treated orally with various doses of DBAN (25, 50, 75, and 100 mg/kg) and killed at one-half hour after treatment. Control animals received 1 ml/kg PO of the vehicle dimethyl sulfoxide (DMSO). In both experiments blood and organs were collected and stored at -80 degrees C until the time of analysis. At 0.5 hr after treatment, a single oral dose of DBAN caused a significant decrease of glutathione (GSH) concentrations in liver (54% of control) and stomach (6% of control). Hepatic GSH depletion was maximal at 0.5 hr and rebound to the control levels by 4 hr. In contrast, gastric GSH concentrations remained low at all time points. DBAN caused an insignificant change in both kidney and blood GSH levels. DBAN significantly inhibited glutathione-S-transferase (GST) activity in liver and stomach. Hepatic GST inhibition was maximal (34% of control) at 2 hr and minimal (80% of control) at 4 hr. Meanwhile, in the stomach GST activity was inhibited at 1 hr (60% of control) and remained low at all times after treatment. Both GSH depletion and GST inhibition were dose-dependent. This study indicates that GSH and GST play an important role in the metabolism and detoxification of DBAN in rats. The prolonged depletion of GSH and inhibition of GST in the gastrointestinal (GI) tissues suggest that the GI tract is a major target for DBAN toxicity.
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PMID:Studies on the mechanism of haloacetonitrile-induced gastrointestinal toxicity: interaction of dibromoacetonitrile with glutathione and glutathione-S-transferase in rats. 194 97

Resistance of tumor cells to chemotherapeutic drugs may be due to several mechanisms within a single cell line. Resistance to doxorubicin in the human multidrug resistant breast cancer cell line, MCF-7 AdrR, has been attributed to increased glutathione (GSH) S-transferase and GSH peroxidase activity, as well as to increased expression of the mdr1 gene product, P-glycoprotein. We studied the potentiation of doxorubicin activity in these cells by buthionine sulfoximine (BSO), a specific inhibitor of gamma-glutamylcysteine synthetase, and by verapamil and trans-flupenthixol, agents which interact with P-glycoprotein. Treatment with BSO enhanced the effect of doxorubicin by 1.5-fold, while verapamil or transflupenthixol caused a greater reversal of drug resistance. The combination of BSO with trans-flupenthixol produced no further potentiation of doxorubicin activity. However, the combination of BSO with verapamil and doxorubicin caused up to a 10-fold increment in antiproliferative effect. To explore the mechanism by which BSO interacted with this drug combination, we determined whether or not BSO might potentiate the effects of verapamil. These studies demonstrated that the effects of BSO were predominantly due to an increase in verapamil toxicity rather than to doxorubicin toxicity. In addition, when mice received concentrations of BSO in their drinking water sufficient to deplete GSH and were treated with verapamil, the calcium channel blocker was lethal to 9 of 12 mice receiving BSO compared to 1 of 10 control animals receiving verapamil alone. These studies demonstrate that BSO does not markedly increase the pharmacological effect of doxorubicin against MCF-7 AdrR cells and suggest that alterations in GSH and related enzymes are not a major factor in drug resistance in this cell line. Furthermore, BSO can increase the toxicity of verapamil, a finding which may have important implications for clinical trials.
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PMID:Effect of buthionine sulfoximine on toxicity of verapamil and doxorubicin to multidrug resistant cells and to mice. 198 8

The ability of ethanol to alter glutathione (GSH) conjugation and its dependence upon duration of administration were investigated in rats in correlation with lipid peroxidation and the induction of microsomal enzymes. Significant decreases in hepatic GSH and glutathione-S-transferase (GST) activity in both liver and lung were found in rats treated acutely with ethanol (4 g/kg body weight 6 hr prior to killing). These decreases were accompanied by an increased loss of both GSH and GST into the plasma and increased hepatic lipid peroxidation. On the other hand, there was a dose-dependent increase in hepatic GSH after chronic administration of ethanol in drinking water (5 and 10%) for 3 weeks. This increase in hepatic GSH may be due to increased synthesis of GSH in the liver. No significant induction of GST by chronic ethanol treatment was observed in either organ. Ethanol was compared with the well-known inducers phenobarbital and beta-naphthoflavone. Although there was some evidence of increases in lipid peroxidation and/or microsomal enzyme activity with the inducers, no simple link between these increases and the induction of GST activity was identified.
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PMID:Effects of ethanol on glutathione conjugation in rat liver and lung. 200 84

The objectives of this study were to determine the LC50 of methyl bromide (MeBr) and the dose-response curve and to study the detoxication effect of reduced glutathione (GSH) on MeBr poisoning in mice. 1) The LC50 of 4-h exposure to MeBr was 405 ppm in male mice with 95% confidence limits of 386-425 ppm. 2) The mortality rates of mice exposed to 500 ppm MeBr for 105, 120, 130, 140, 150 and 180 min were 0, 0, 10.7, 15.0, 85.0 and 90.0%, respectively. 3) In contrast, the mortality rate of mice pretreated with GSH (i.p 500 mg/kg; GSH-group) was only 5.3% after exposure to 500 ppm MeBr for 150 min. 4) Metabolic substances (Br-, GSH, formaldehyde, formic acid and beta-glucuronidase) were analyzed after exposure to 500 ppm MeBr and compared with the GSH-group and the distilled water treated group (DW-group). Except for GSH, concentrations of all other substances were significantly lower in the GSH-group than in the DW-group. Erythrocyte osmotic fragility test showed a significant increase in fragility in the DW-group. These results suggested that the onset of symptoms or death due to MeBr poisoning suddenly occurs at some point of concentration and time exposure. It was also shown that pretreatment with GSH effectively reduced mortality due to MeBr exposure.
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PMID:[Experimental study on methyl bromide poisoning in mice. Acute inhalation study and the effect of glutathione as an antidote]. 202 Jan 25

The effect of glutathione (GSH) depletion by buthionine sulphoximine (BSO) on the nephrotoxicity and GSH-enhancing effect of the naturally occurring, crucifer-derived nitrile 1-cyano-3.4-epithiobutane (CEB), was investigated. Male Fischer 344 rats were administered 50 or 125 mg CEB/kg body weight by gavage with or without prior ip treatment with 550 mg/kg body weight L-BSO. One group of control animals was treated with water only by gavage, while another group was pretreated with BSO and then given water by gavage. Liver and kidney samples were taken 48 hr after CEB treatment for GSH determinations and histological examination. The high-dose CEB without BSO resulted in increased GSH in liver and kidney, marked karyomegaly in the pars recta of renal proximal tubules and tubular epithelial necrosis, which was limited to a few renal tubules. The low-dose CEB alone resulted in increased hepatic GSH and mild karyomegaly. Pretreatment with BSO abrogated the tubular necrosis and karyomegaly induced by either CEB dose. BSO pretreatment inhibited low-dose CEB-induced GSH enhancement in the liver. The combined BSO and high-dose CEB treatment still resulted in increased hepatic GSH, although the increase was less than that observed with high-dose CEB alone. In the kidney, BSO pretreatment abrogated the high-dose CEB-induced increase in GSH, but GSH content was not significantly different from that with high- or low-dose CEB alone. These results provide evidence that CEB conjugation may be a bioactivation reaction with the conjugate involved in nephrotoxicity. The conjugate may also be involved in increasing renal and hepatic GSH.
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PMID:The effect of glutathione depletion by buthionine sulphoximine on 1-cyano-3,4-epithiobutane toxicity. 203 56

Mild and severe chronic fluorosis were produced in Wistar rats by feeding them with water containing 10 ppm and 30 ppm fluoride respectively for eight months. There were some different changes in the eighteen blood biochemical indices between mild and severe chronic fluorosis. GSH-px, K+, Ca2+, p2-, Apr and cAMP from these blood biochemical indices were chosen to set up a diagnostic function discriminant of mild and severe chronic fluorosis by the computer.
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PMID:[An experimental study of blood biochemical diagnostic indices for chronic fluorosis]. 203 10

Ethoxyquin (EQ) residue levels in the mouse tissue were determined by the HPLC-fluorometric detection method. Mice were given powdered feed containing 0, 0.125, and 0.5% EQ HCl and the EQ residue levels in liver, kidney, lung, and brain tissues were determined after 2, 4, 6, 10, and 14 wk (4 mice/group). The tissue samples were homogenized in 10 volumes (w/v) of acetonitrile-water (7:3, v/v), centrifuged, and the supernatants were stored in a freezer for 2-3 h or until the two layers separated; then the clear upper layers were analyzed. The mean EQ residue levels in the tissue ranged 0.84-4.58 micrograms EQ/g liver and 0.11-0.92 micrograms EQ/g brain. The relative weight of the liver (5.21-7.07% body weight) and the hepatic glutathione level (5.99-7.83 microM GSH/g tissue) of mice that received EQ were significantly higher than those of the controls (4.67-5.05% body weight and 4.30-5.78 microM GSH/g tissue, respectively). The mean hepatic mitochondrial glutathione level of the higher EQ feeding group, following dietary administration of EQ for 14 wk, was approximately twofold (1.68 nM GSH/mg protein) of both the control and the lower EQ feeding groups (0.83 and 0.74 nM GSH/mg protein, respectively).
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PMID:Accumulation of ethoxyquin in the tissue. 205 96

The effects of low-level lead (20 micrograms/liter) and/or cadmium (2 micrograms/liter) exposure on the structure and function of different organ systems of the freshwater crayfish. Astacus astacus L. (Crustacea: Decapoda) were estimated by several biochemical and histochemical methods. The animals were incubated during 10 weeks (max.) at a temperature of 10 degrees C and a normal diurnal rhythm. Lead accumulated in high amounts especially in the digestive gland, carapax, and gills, whereas the hindgut and musculature exhibited very low lead levels. Cadmium accumulated particularly in the digestive gland and gills. Lead and cadmium levels were definitely lower in the digestive gland, gills, and carapax of animals incubated in water containing a double, i.e., lead and cadmium load, than in animals kept in water containing only one of these heavy metals. Histochemically both metals could be visualized in a typical distribution within the tissues, such as the carapax, digestive gland, or gills. After several weeks of poisoning, all organs, but especially the digestive gland, showed severe structural impairment. The activities of oxidative enzymes in the digestive gland and gills were significantly lowered after 2 weeks of incubation. Enzyme histochemical evaluation demonstrated changes of reaction intensities within the organs as compared to the controls. GSH S-transferase activities and GSH contents were also distinctly decreased following lead and/or cadmium intoxification. The histochemical demonstration of SH and S-S groups exhibited a stronger staining reaction after 10 weeks of exposure, especially in digestive gland and gills. The results obtained are discussed in view of the specific impairment of function of the organ systems studied, as related to the typical biology of the animal species tested.
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PMID:Biochemical and histochemical observations on effects of low-level heavy metal load (lead, cadmium) in different organ systems of the freshwater crayfish, Astacus astacus L. (Crustacea: Decapoda). 206 27

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