EC:2.5.1.18 - FACTA Search

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)

Effects of chemically induced hepatic injury on biotransformation enzymes in fish were studied. Sunfish hybrids (Lepomis macrochirus x L. cyanellus) were dosed per os with allyl formate (ALF) and carbon tetrachloride (CCl4), and the induction of liver EROD (7-ethoxyresorufin O-deethylase) activity was subsequently challenged by injections of beta-naphthoflavone (BNF) and benzo[a]pyrene (B[a]P). Hepatotoxicity of chemical treatments was assessed using blood enzymes (ASAT, ALAT, and LDH) along with other biochemical variables. Both hepatotoxicants partially abolished the induction of EROD (maximally by 76-89%), and the decrease in induction was dose related. The cytosolic activity of glutathione S-transferase (GST) in the liver decreased in parallel with the decrease in EROD induction. Fish receiving high doses of ALF exhibited significantly less microsomal and blood plasma proteins and, occasionally, were jaundiced. These symptoms, however, were less sensitive indicators of hepatotoxicity than alterations in liver EROD and GST. Both ALF and CCl4 increased the activities of hepatic enzymes in the blood plasma, indicating cytotoxicity. In addition B[a]P, unlike BNF, also increased plasma activities of LDH and ALAT at a dose inducing liver EROD, implying simultaneous hepatotoxicity at high sublethal levels of this xenobiotic. These data suggest that hepatotoxic chemicals absorbed by fish may act antagonistically by decreasing the degree of induction of the cytochrome P450 system relative to the inherent capacity of inducing xenobiotic chemicals present in the environment. Therefore, when assessing the toxicological status of water using fish health biomarkers, it is advisable to measure a concert of metabolic and biochemical variables instead of any single biomarker.
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PMID:Effects of hepatotoxicants on the induction of microsomal monooxygenase activity in sunfish liver by beta-naphthoflavone and benzo[a]pyrene. 137 51

The multifactorial nature of carcinogenesis in man has impelled us to study the effects of various chemicals and conditions in combination. In the present investigation, we examined the effects of low doses of 2-amino-3,8-dimethyl-imidazo[4,5-f]quinoxaline (MeIQx) in combination with carbon tetrachloride (CCl4) on the formation of glutathione S-transferase placental form (GST-P)-positive foci in rat liver. Administration of diet containing MeIQx at 0.4, 4 or 40 p.p.m., representing one-thousandth, one-hundredth and one-tenth of the dose proved to induce hepatocellular carcinomas (400 p.p.m.), for 8 or 12 weeks did not induce GST-P-positive foci. However, 40 p.p.m. of MeIQx when co-administered with CCl4 (0.7 ml/kg, s.c. twice a week) induced preneoplastic lesions: 7- and 3-fold increases in the numbers and areas of GST-P positive foci in week 8, and 8- and 6-fold increases respectively in week 12, over those with CCl4 alone. Furthermore, a marked increase in the number of hyperplastic nodules was observed in this group of rats in week 12. No significant increases of GST-P-positive foci were observed at doses of 0.4 or 4 p.p.m. MeIQx in combination with CCl4. Thus, it is predicted that chronic exposure to 40 p.p.m. of MeIQx eventually results in induction of hepatocellular carcinomas in injured rat liver.
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PMID:Induction of preneoplastic lesions by a low dose of 2-amino-3,8-dimethylimidazo[4,5-f]quinoxaline (MeIQx) in the livers of rats treated with carbon tetrachloride. 158 92

Three indole antioxidants were compared for their efficacy to inhibit lipid peroxidation, prevent chemical hepatotoxicity and induce enzyme systems involved in the biotransformation of xenobiotics. The dietary indolyl compound indole-3-carbinol (I-3-C), and the synthetic compounds 5,10-dihydroindeno[1,2-b]-indole (DHII) and 4b,5,9b,10-tetrahydroindeno[1,2-b]indole (THII) inhibited carbon tetrachloride (CCl4)-initiated lipid peroxidation in rat-liver microsomes, with the order of efficacy THII greater than DHII = butylated hydroxytoluene (BHT) much greater than I-3-C. Each of the indole compounds protected isolated rat hepatocytes against toxicity by CCl4, N-methyl-N'-nitro-N-nitrosoguanidine and methylmethanesulphonate (THII congruent to DHII much greater than I-3-C). In vivo administration of the indole compounds 1 hr before treatment with CCl4 protected against hepatotoxicity (THII greater than DHII greater than I-3-C). For the enzyme induction studies, phenobarbital and beta-naphthoflavone were used as standards, with corn-oil vehicle controls. The compounds were administered by gavage at 50 mg/kg body weight/day for 10 days. I-3-C produced increases in levels of hepatic cytochromes P-450 and ethoxyresorufin O-deethylase (EROD) activity, as well as in UDP-glucuronosyl transferase (UDPGT), glutathione S-transferase (GST), glutathione reductase (GSSG-Red) and quinone reductase. I-3-C produced decreased glutathione peroxidase (GSH-Px) and superoxide dismutase (SOD) activities. DHII produced increases in EROD, UDPGT, GST, GSSG-Red and quinone reductase, with decreases in NDMA-demethylase and GSH-Px activities. The only observed effect of THII was a modest induction of EROD activity. After treatment with the indole compounds for 10 days, I-3-C enhanced, while DHII diminished, CCl4-mediated 24-hr hepatotoxicity in rats. We conclude that DHII and THII are suitable candidates to develop further as potential chemoprotective and therapeutic agents for use in humans to treat disorders involving free radicals. THII has the greater radical scavenging efficacy, whereas DHII has the greater capacity to induce many different antioxidative enzymes.
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PMID:Chemoprotective and hepatic enzyme induction properties of indole and indenoindole antioxidants in rats. 187 67

The combination of 1,2-dibromoethane (DBE) with carbon tetrachloride (CCl4) in the isolated rat hepatocyte model produces a significant potentiation of both lipid peroxidation and plasma membrane damage induced by the latter compound. The increase in malondialdehyde production precedes the hepatocyte damage, evaluated in terms both of lactate dehydrogenase leakage and trypan blue exclusion. When hepatocytes are isolated from vitamin E pretreated rats, both the prooxidant and the cytotoxic effects of CCl4 are prevented. Also the synergism between CCl4 and DBE on lipid peroxidation disappears completely while that on cell damage is strongly reduced. The increased lipid peroxidation appears to be one of the mechanisms of the observed synergism between CCl4 and DBE on hepatocyte damage. Regarding the antioxidant status of the hepatocyte challenged with CCl4 and DBE, an early and significant consumption of vitamin E is observed only in the presence of the mixture of these xenobiotics. Total nonprotein thiol content is not significantly modified by CCl4 poisoning while DBE, alone and in association with CCl4, markedly decreases it. Vitamin E supplementation does not prevent but moderately delays total nonprotein thiol depletion due to DBE or to the mixture. Finally, glutathione transferase activity is significantly reduced by CCl4 treatment and not by DBE, and vitamin E supplementation totally prevents such inhibition. The increased prooxidant effect of CCl4 plus DBE compared to CCl4 alone seems related to the shift in DBE metabolism consequent to the CCl4-dependent inactivation of glutathione transferase.
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PMID:Lipid peroxidation and irreversible cell damage: synergism between carbon tetrachloride and 1,2-dibromoethane in isolated rat hepatocytes. 189 69

These investigations sought to determine the role of physiological concentrations of natural glucocorticoids in modulating chemical toxicity, and to ascertain if effects on toxicity may be due to alterations of chemical metabolizing enzymes by glucocorticoids. The hepatotoxic response to carbon tetrachloride (CCl4) in adrenalectomized or naive Long Evans rats treated with corticosterone was assessed. Alterations of hepatic cytochrome P-450 concentration, mono-oxygenase activities, NADPH-cytochrome (P-450)c reductase activity, and glutathione S-transferase activity were examined. Adrenalectomy and to a lesser extent sham surgery were protective, but corticosterone administration increased CCl4 hepatotoxicity. Corticosterone administration to adrenalectomized or sham-operated rats reduced the protective effect of these treatments. Correlating with the in vivo response, mono-oxygenase activities decreased after adrenalectomy and sham surgery, but increased with glucocorticoid administration. These studies suggest that basal, stress-associated, and pharmacological concentrations of a natural glucocorticoid can modify chemical toxicity and alter hepatic enzymes important to chemical metabolism.
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PMID:Modulation of carbon tetrachloride hepatotoxicity and xenobiotic-metabolizing enzymes by corticosterone pretreatment, adrenalectomy and sham surgery. 199 98

A rat liver gap junction (GJ) cDNA probe that detects mRNA encoding the 32 Kd GJ-protein (connexin 32) was employed to study GJ-protein gene expression in rat liver tumors induced by a single exposure to diethylnitrosamine (DEN) followed by exposure to 2-acetylaminofluorene (AAF)/CCl4/AAF or induced by systemic administration of N-ethyl-N-hydroxyethylnitrosamine (EHEN). All carcinomas generated by these carcinogens showed markedly reduced levels of GJ-protein mRNA. This may indicate that GJ-protein levels and gap-junctional intercellular communication (GJIC) capacity are also severely compromised. Moreover, all hyperplastic nodules also showed a reduced level of GJ-protein mRNA. Taken together with our earlier finding that the liver tumor promoter phenobarbital inhibits GJ-protein gene expression, these results suggest that deranged GJIC is a relatively early event in liver multistage carcinogenesis. A range of other cDNA probes was also used to characterize gene expression in the DEN-induced tumors. Induction of expression was seen for glutathione S-transferase (placental form) (GST-P), gamma-glutamyltranspeptidase (GGT), and c-raf but not for c-Ha-ras or c-myc.
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PMID:Changes in gap junction protein (connexin 32) gene expression during rat liver carcinogenesis. 255 87

Experiments were designed to determine whether liver cell proliferation induced by direct mitogens is as effective as compensatory cell proliferation consequent to previous cell loss, in supporting the growth of enzyme-altered islands in the liver induced by chemical carcinogens. Male Wistar rats were given injections of a single nonnecrogenic dose of N-methyl-N-nitrosourea or benzo(a)pyrene during the S phase following the administration of four different liver mitogens, namely, lead nitrate, ethylene dibromide, nafenopin, and cyproterone acetate, or during compensatory cell proliferation following partial hepatectomy or a necrogenic dose of CCl4. The carcinogen-altered hepatocytes were monitored as gamma-glutamyltransferase- or placental glutathione S-transferase-positive foci using a 2-wk promoting regimen consisting of 0.03% 2-acetylaminofluorene coupled with a necrogenic dose of CCl4. The results indicate that, unlike compensatory cell proliferation induced by partial hepatectomy or CCl4, the mitogen-induced cell proliferation did not result in a significant number of enzyme-altered islands, despite the fact that the extent of cell proliferation at the time of carcinogen administration, as monitored by the examination of labeled cells, is similar with both types of proliferative stimuli.
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PMID:Inability of mitogen-induced liver hyperplasia to support the induction of enzyme-altered islands induced by liver carcinogens. 288 25

The metabolism of benzo[a]pyrene (BP) in regenerating rat liver and the induction of enzyme-altered foci (EAF) in the liver of partially hepatectomized rats, treated with BP and promoted with 2-acetylaminofluorene (2-AAF)/CCl4 was investigated. The aim was to examine factors that might be of importance for the tumorigenicity of BP in the regenerating rat liver, such as cytochrome P-450 activity and glutathione levels. In regenerating rat liver, obtained 18 h after partial hepatectomy (PH), the amount of microsomal cytochrome P-450 was reduced by 20% whereas the level of glutathione was elevated by 15% and the cytosolic glutathione transferase activity towards chlorodinitrobenzene and (+/-)-7 beta,8 alpha-dihydroxy-9 alpha, 10 alpha-epoxy-7,8,9,10-tetrahydro-BP (BPDE) was unaffected. Microsomes from these animals had a reduced capacity to activate (-)-trans-7,8-dihydroxy-7,8-dihydro-BP (BPD) to DNA-binding products but the pattern of BP metabolites was similar to that observed with control rat liver microsomes. Treatment of rats with 3-methylcholanthrene (MC, 50 mg/kg body wt.) increased cytochrome P-450 levels and glutathione transferase activity towards both substrates. Regenerating livers from these animals retained their cytochrome P-450 level and enzymatic activity towards BP and BPD. Regenerating rat liver microsomes from MC-treated animals were about 35 times more efficient in activating BPD than microsomes from uninduced, partially hepatectomized animals. Intraperitoneal administration of BP (50 mg/kg body wt.) 18 h after PH induced EAF in rats subsequently promoted with 2-AAF/CCl4. Pretreatment of rats with MC 66 h before PH and 84 h before BP administration, increased the number of EAF. In accordance with results by Tsuda et al. (Cancer Res., 40 (1980) 1157-1164), these studies demonstrate that BP is tumorigenic in regenerating rat liver, despite a reduced ability of the liver to activate this compound. Furthermore, MC, an inducer of certain cytochrome P-450 species ("aryl hydrocarbon hydroxylase"), potentiates the effect of BP.
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PMID:Benzo[a]pyrene metabolism and induction of enzyme-altered foci in regenerating rat liver. 314 93

To exclude the possibility that changes in hepatotoxicity and biotransformation were induced by diabetogen administration, the influence of long-lasting experimental insulin-dependent diabetes on the activities of benzphetamine demethylase, styrene oxide hydrolase, and UDP-glucuronosyl-transferases toward 1-naphthol, diethylstilbestrol, estrone and testosterone, and glutathione S-transferases toward 1-chloro-2,4-dinitrobenzene, ethacrynic acid, and sulfobromophthalein was studied. Adult male Sprague-Dawley rats injected with 45 mg streptozotocin/kg rapidly developed the classical symptoms of diabetes which persisted throughout the 90-day test period. Ketonemia was detectable at 6 but not at either 35 or 90 days after streptozotocin administration. After acute challenge with bromobenzene or carbon tetrachloride (CCl4), aspartate and alanine aminotransferase activities in rats diabetic for 35 and 90 days were markedly higher than those in normal rats, suggesting that diabetes potentiated the hepatotoxicity of these chemicals. Administration of 25 microliters CCl4/kg, ip, to diabetic rats decreased enzyme activities toward benzphetamine, sulfobromophthalein, 1-chloro-2,4-dinitrobenzene, and 1-naphthol. In normal rats, a dose of 400 microliters CCl4/kg, ip, was required to cause similar changes in enzyme activities. Bromobenzene (500 microliters/kg, ip) elicited opposing responses in diabetic and normal rats in N-demethylase activity, in UDP-glucuronosyltransferase activity toward 1-naphthol, estrone, and testosterone, and in glutathione S-transferase activity toward 1-chloro-2,4-dinitrobenzene. Total cytochrome P450 concentrations were reduced by both induction of diabetes and hepatotoxicant challenge. Thus, chronic uncontrolled diabetes alters the response of hepatic xenobiotic biotransformation enzymes in a non-uniform, substrate-dependent manner, independent of initial diabetogen effects. The role of cytochrome P450j in potentiating CCl4 toxicity is discussed.
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PMID:The effect of long-term streptozotocin-induced diabetes on the hepatotoxicity of bromobenzene and carbon tetrachloride and hepatic biotransformation in rats. 335 67

The effect of carbon tetrachloride (CCl4) treatment on plasma and liver cytosolic glutathione S-transferase (GST) activities was investigated in rats. CCl4 was intraperitoneally administered at a dose of 0.5 ml/kg. The elevation of plasma GST activity paralleled the increase of plasma glutamate pyruvate transaminase activity after the administration of CCl4. Liver cytosolic GST activities were significantly decreased by CCl4 treatment. To establish the relationship of plasma GST with liver cytosolic isozymes, Western blot analysis using antibodies against cytosolic GST 1-2 and 3-4 was performed. The Western blots showed the existence of GST 1-2 and 3-4 in plasma at 24 hr after CCl4 treatment. The data thus strongly suggest that cytosolic GSTs are lost from the liver to plasma as a consequence of liver damage. The Western blot analysis of plasma GST may be useful for monitoring liver damage.
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PMID:Plasma glutathione S-transferase in carbon tetrachloride treated rats and its association to hepatic cytosolic isozymes. 337 33

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