Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.5.1.18 (glutathione S-transferase)
 22,582 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of L-ascorbyl stearate and L-ascorbyl palmitate on carbon tetrachloride-induced alterations in glutathione and ascorbic acid content in mouse livers were investigated. Powdered food containing 1% ascorbate ester was given to mice for 3 days before and 1 day after a single injection of CCl4 (0.1 ml/kg, i.p.). Biochemical parameters were determined 1 day after the CCl4 administration. The ascorbate esters markedly attenuated CCl4-induced alterations such as reductions in ascorbate content and hepatic glutathione S-transferase (GST) activity, and increases in glutathione and calcium content and serum GST activity. The CCl4-induced rise in thiobarbituric acid-reactive substances, an index of lipid peroxidation, was not affected by ascorbate feeding. These findings suggest that exogenous ascorbate, in addition to endogenous glutathione, is available to maintain the intracellular milieu in a reduced state, and that this system operates more effectively in aqueous compartments than in membrane lipid bilayers.
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PMID:Carbon tetrachloride-induced alterations in hepatic glutathione and ascorbic acid contents in mice fed a diet containing ascorbate esters. 813 59

The present study investigated the relationship between the concentration of the reduced form of glutathione (GSH) and GSH-dependent enzyme activities in the gastric mucosa during chronic liver injury caused by carbon tetrachloride (CCl4) in rats. There were significant decreases in the mucosal GSH concentration and glutathione S-transferase (GST) activity as well as a significant increase in gamma glutamyltransferase (GGT) activity in rats exposed to CCl4 (all p < 0.001). However, no significant change was observed in glutathione peroxidase (GSH-Px) activity. A negative correlation was seen between the mucosal GSH concentration and GGT activity (p < 0.05) and a positive correlation between the GSH concentration and GST activity (p < 0.01). No correlation was noted between the GSH concentration and GSH-Px activity. Gastric mucosal damage, as evaluated by macroscopic observation and light microscopy, was more damaged in the rats exposed to CCl4 than in the control group. There was a significant correlation between histologic mucosal damage and GGT activity (p < 0.05) as well as a negative correlation between the number of macroscopic lesions and GSH and between the number of macroscopic lesions and GST (p < 0.01). From the observed abnormalities of GSH and GSH-dependent enzymes in the gastric mucosa of the rats exposed to CCl4, GSH content and the activities of GSH-dependent enzymes might play a role in the gastric mucosal defense mechanism during chronic liver injury.
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PMID:Effects of carbon tetrachloride-induced chronic liver damage on glutathione and glutathione-dependent enzymes in rat gastric mucosa. 821 Jun 99

The modifying action of experimentally induced chronic liver injury on diethylnitrosamine (DEN) hepatocarcinogenesis was investigated using a minimal treatment protocol. A single dose of DEN (15 mg/kg b.w.) was administered as a carcinogen to 1-day-old Sprague-Dawley rats. From 3 weeks of age rats received repeated intraperitoneal injections of carbon tetrachloride (CCl4), or 10% ethanol or 5% acetaldehyde in the drinking water for 9 weeks. Combinations of CCl4 and ethanol or acetaldehyde were also tested. Morphology, immunohistochemistry for glutathione S-transferase-placental form, and incidence and quantity of preneoplastic lesions of the livers were studied. The chronic CCl4 administration produced complete or incomplete liver cirrhosis and exerted a strong promoting effect on the development of neoplastic nodules. Ethanol alone revealed no cirrhogenous or tumor-promoting effect, but enhanced both actions of CCl4. Acetaldehyde increased only the cirrhogenous effect of CCl4.
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PMID:Effects of carbon tetrachloride, ethanol and acetaldehyde on diethylnitrosamine-induced hepatocarcinogenesis in rats. 833 Feb 98

Chlorinated methanes are important industrial chemicals and significant environmental pollutants. While the highly chlorinated methanes, trichloromethane and tetrachloromethane, are not productively metabolized by bacteria, chloromethane and dichloromethane are used by both aerobic and anaerobic methylotrophic bacteria as carbon and energy sources. Some of the dehalogenation reactions involved in the utilization of the latter two compounds have been elucidated. In a strictly anaerobic acetogenic bacterium growing with chloromethane, an inducible enzyme forming methyltetrahydrofolate and chloride from chloromethane and tetrahydrofolate catalyzes dehalogenation of the growth substrate. A different mechanism for the nucleophilic displacement of chloride is observed in aerobic methylotrophic bacteria utilizing dichloromethane as the sole carbon and energy source. These organisms possess the enzyme dichloromethane dehalogenase which, in a glutathione-dependent reaction, converts dichloromethane to inorganic chloride and formaldehyde, a central metabolite of methylotrophic growth. Sequence comparisons have shown that bacterial dichloromethane dehalogenases belong to the glutathione S-transferase enzyme family, and within this family to class Theta. The dehalogenation reactions underlying aerobic utilization of chloromethane by a pure culture and anaerobic growth with dichloromethane by an acetogenic mixed culture are not known. It appears that they are based on mechanisms other than nucleophilic attack by tetrahydrofolate or glutathione.
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PMID:Bacterial growth with chlorinated methanes. 856 6

The modulation of CCl4-induced hepatotoxicity in response to alkyl sulfides and alkyl ethers including allyl disulfide (ADS), allyl sulfide (AS), allyl ether (AE), propyl disulfide (PDS), propyl sulfide (PS), propyl ether (PE) and butyl sulfide (BS) was studied. Whereas pretreatment of rats with either ADS or AS (50 mg/kg, 7 days) blocked a CCl4-induced increase in plasma alanine aminotransferase (ALT) activity by 91 and 56%, respectively, AE, PDS, PS, PE or BS treatment enhanced CCl4-induced ALT activity by 52, 55, 238, 25 or 86%, respectively. Histochemical examinations supported the results of plasma ALT activity. Injection of GdCl3 to PS-pretreated rats failed to block the potentiated ALT increase, whereas GdCl3 completely prevented vitamin A-enhanced elevation of ALT activity. AS treatment completely blocked PS-potentiated CCl4 intoxication. Concomitant treatment of animals with both PS and vitamin A followed by a CCl4 insult resulted in super-potentiation of CCl4-induced hepatotoxicity, suggesting that the mechanism of PS-enhanced hepatotoxicity differs from that caused by vitamin A. Pyridine or phenobarbital potentiation of CCl4-induced increases in ALT activity implys that cytochrome P450 2E1 (P450 2E1) and P450 2B expression may be associated with the increased toxicity. P450 2E1 expression appeared to be associated with the alkyl sulfide-modulated hepatotoxicity, as evidenced by both immunoblot analyses and metabolic activity. P450 2B immunoblot analysis revealed that either AS or PS substantially induced hepatic P450 2B1/2 levels. Thus, PS-enhanced CCL4 hepatotoxicity may be related in part with P450 2B induction. ADS, AS or PS treatment caused increases in the glutathione S-transferase (GST) conjugating activity toward 1-chloro-2,4-dinitro-benzene. ADS, AS or PS induced Ya and Yb1 subunits by 2- to 3-fold. ADS or AS treatment also significantly elevated the levels of Yc subunits. PS failed to induce Yc expression, although this agent effectively increased Yb2 expression. Northern blot analyses revealed that ADS and AS concomitantly stimulated GST Ya, Yb1 and Yc2 gene expression, whereas PS increased the levels of Ya, Yb1, and Yb2 mRNA, but not Yc2 mRNA levels. The expression of GST subunit Yc2 in response to these compounds might be associated with hepatoprotective effects. These results demonstrate that ADS and AS have distinct capability of blocking CCl4-induced hepatotoxicity, whereas certain saturated alkyl sulfides rather potentiate CCl4-induced hepatotoxicity and that the underlying mechanism is associated with P450 2E1 and P450 2B expression, and possibly with certain GST expression.
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PMID:Molecular mechanism for alkyl sulfide-modulated carbon tetrachloride-induced hepatotoxicity: the role of cytochrome P450 2E1, P450 2B and glutathione S-transferase expression. 862 17

An experiment was performed to investigate whether, during regression of the liver hyperplasia induced by a direct mitogen, apoptosis differentially affects replicated and non-replicated hepatocytes. After a single dose of the direct mitogen lead nitrate (LN), male Wistar rats were given repeated injections of tritiated thymidine, and were killed either 3 days (time of maximal hepatic DNA increase) or 15 days (complete regression of the hyperplasia) after mitogen treatment. Determination of liver DNA radioactivities and labelling indices (LIs) at the two time points revealed an approximately 40% loss in total liver DNA radioactivity, a 20% decrease in the specific activity of DNA, and a 20% reduction in the cell LI. Three days after LN administration 64% of the apoptotic bodies contained thymidine grains in their nuclear fragments. The results indicated that apoptosis affects both hepatocytes that replicated, and those that did not replicate, the former being slightly more sensitive. A second experiment was then performed to investigate whether and to what extent different types of cell death (apoptosis versus necrosis) influence the growth of hepatocytes initiated by a chemical carcinogen. Male Wistar rats were given a single dose of diethylnitrosamine, and 2 weeks thereafter either a single dose of LN, or a necrogenic dose of carbon tetrachloride (CCl4). Bromodeoxyuridine was next infused for 5 days, and some of the animals were killed at this time point, and others after an additional 3 weeks. Administration of CCl4 resulted in an increase in both the average size and the percentage area occupied by placental glutathione S-transferase-positive lesions. In contrast, administration of lead nitrate resulted in a strong reduction (50%) in the number of positive lesions with no remarkable change in the percentage area occupied by them. These differential effects occurred even though comparable LIs were observed in rats treated with the two agents. The results suggest that lead nitrate leads to a loss of initiated hepatocytes, due to the apoptosis that occurs during regression of the LN-induced hyperplasia.
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PMID:Effects of cell proliferation and cell death (apoptosis and necrosis) on the early stages of rat hepatocarcinogenesis. 863 Nov 22

We found that NADPH-dependent ubiquinone reductase (NADPH-UQ reductase) in rat liver cytosol reduces ubiquinone (UQ) to ubiquinol (UQH2) in lipid membranes and consequently inhibits lipid peroxidation [Takahashi T., et al., Biochem. J., 309, 883-890 (1995)]. Here we examined whether or not this UQH2-regenerating system functions as a cellular antioxidant defense in animals. Rats were given UQ-10 for 2 weeks, and were then exposed to carbon tetrachloride (CCl4). The UQ-10 supplement increased only in the NADPH-UQ reductase and the UQH2-10 pool of rat liver without any appreciable change in the levels of other antioxidant factors. On the other hand, CCl4 markedly increased plasma aspartate aminotransferase and alanine aminotransferase, liver weight and thiobarbituric acid reacting substances formation, which are indicators of CCl4-hepatitis, and it decreased the liver levels of L-ascorbic acid, reduced form of glutathione (GSH), alpha-tocopherol, NADPH-UQ reductase and glutathione S-transferase. However, all the above indicators of CCl4-induced hepatitis were significantly improved in rats given UQ-10. Furthermore, alpha-tocopherol, but neither L-ascorbic acid nor GSH, was significantly saved. UQ-10 supplement also was recovered glutathione S-transferase and NADPH-UQ reductase activities slightly. These results indicated that UQ-10 given to rats increased the cellular UQH2-10 pool and cytosolic NADPH-UQ reductase activity in their livers, resulting in the inhibition of lipid peroxidation in the biomembranes, and consequently protected the rats from the CCl4-hepatotoxicity.
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PMID:Cellular antioxidant defense by a ubiquinol-regenerating system coupled with cytosolic NADPH-dependent ubiquinone reductase: protective effect against carbon tetrachloride-induced hepatotoxicity in the rat. 887 5

Rat is susceptible whereas hamster is resistant to aflatoxin B1 (AFB1) hepatocarcinogenesis. Effect of cell proliferation on AFB1-induced glutathione S-transferase placental form (GST-P) positive foci has been examined in these two species after a single i.p. dose of AFB1 and phenobarbital (PB) as a promoter in a 3 week period. Bromodeoxyuridine incorporation as a measure of cell proliferation and GST-P hepatic foci were analyzed by immunohistochemical methods. Hepatic cell proliferation was maximum at 24 h after either partial hepatectomy (PH) or CCl4 (4 mmol/kg) pretreatment of rats whereas cell proliferation was maximum at 48 h after PH or CCl4 (1 mmol/kg) treatment of hamsters. Enhanced number of GST-P positive hepatic minifoci (two to nine cells) and foci (>100 microns) and focal area were observed in rats with either AFB1 (0.5 mg/kg) given 24 h after PH or AFB1 (0.5 or 2.5 mg/kg) given 48 h after CCl4 dosing. In hamsters, 1 or 2 mg AFB1 treatment produced only GST-P positive single hepatocytes without presence of any minifoci whereas 3 or 6 mg AFB1 produced minifoci consisting only of doublets. Pretreatment with CCl4 48 or 72 h before 1 mg AFB1 dose level increased GST-P positive single cells and minifoci several fold. PH 24 or 48 h before 1 or 2 mg AFB1 dose level increased minifoci. However, increase in minifoci was higher in PH hamsters at 48 h compared with those at 24 h. These results indicate that even though maximum initiation occurs in both speices when AFB1 is administered at the peak of DNA synthesis, rats are more responsive than hamsters to cellular proliferation in the initiation phase of AFB1-induced hepatocarcinogenesis.
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PMID:Effect of cell proliferation on initiation of aflatoxin B1-induced enzyme altered hepatic foci in rats and hamsters. 896 68

1. The use of the cytoplasmic enzyme, alpha glutathione s-transferase (alpha-GST) as an early index of carbon tetrachloride (CCl4) toxicity in the rat was investigated and compared with a standard enzyme, marker, aspartate aminotransferase (AST). The hepatotoxic effects of CCl4 in the rat were determined in a time and dose-response study. 2. Following CCl4 exposure, alpha-GST release was shown to be an earlier and more sensitive biomarker of hepatotoxicity than AST. 3. Significant increases in alpha-GST were detected 2 h after CCl4 exposure. Using the enzyme marker AST, this early hepatotoxic injury went undetected. At 6 and 16 h, alpha-GST was also a more sensitive indicator of hepatotoxicity than AST. 4. alpha-GST release was significantly increased at a dose of 5 microliters/kg, the lowest concentration of CCl4 administered and clearly responded in a dose-dependent manner with increasing doses of CCl4. In contrast, release of AST did not reach statistical significance until a dose of 25 microliters/kg. 5. Thus, these findings indicate that alpha-GST is a more sensitive and more accurate reflector of CCl4 induced hepatotoxicity than AST.
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PMID:Alpha-glutathione s-transferase (alpha-GST) release, an early indicator of carbon tetrachloride hepatotoxicity in the rat. 908 68

Four days after a single intragastric injection of CCl4 (5 mg/kg as a 50% oil solution) increased intensity of a chemoluminescence "quick flush" in the hepatic microsomes and blood serum, as well as hepatocyte cytolysis (increased ALT activity) and decreased rate of antipyrine elimination from the blood were recorded in rats. The content of cytochromes P-450 and b5 activity of NADH-cytochrome b5 reductase and cytosol glutathione transferase in the hepatic microsomal fractions reduced in this case. Administration of methionine (200 mg/kg) and its combination with nicotinamide (60 mg/kg) without and, particularly, with additional prescription of vitamin E (150 mg/kg) produced a marked antioxidant and enzyme-normalizing effects in the rats.
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PMID:[The effect of nicotinamide, methionine and alpha-tocopherol on the liver conjugating and mono-oxygenase systems and on lipid peroxidation in hepatosis-hepatitis in rats]. 920 76


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