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 carcinogen 4-nitroquinoline 1-oxide (4-NQO) was found to rapidly deplete non-protein thiols (NPSH) from Ehrlich ascites tumor cells and V79 Chinese hamster fibroblasts. The effects of NPSH on 4-NQO metabolism were studied by measuring 4-hydroxyaminoquinoline 1-oxide formation, CN- -insensitive oxygen consumption, and reduction of ferricytochromes c + c1 in normal cells and in cells pretreated with the thiol reagent N-ethylmaleimide. Removal of thiols before treatment with 4-NQO resulted in increased production of 4-hydroxyaminoquinoline 1-oxide and increased production of nitro radicals. The NPSH thus appeared to play a significant role in 4-NQO detoxification. Glutathione, when present in culture medium during 4-NQO treatment, protected V79 cells from 4-NQO toxicity. Several mechanisms for reaction of 4-NQO with intracellular NPSH were indicated. Both V79 and Ehrlich cells contained appreciable amounts of glutathione S-transferase (EC 2.5.1.18), which catalyzes the nucleophilic substitution of the nitro group of 4-NQO with thiols. Greater thiol loss under oxic than under hypoxic conditions suggested oxidation by superoxide, peroxide, or hydroxyl radical formed in the course of 4-NQO reduction. In addition, reaction of thiols with nitro radicals or with nitrosoquinoline 1-oxide was indicated by the inhibitory effect of glutathione on oxygen consumption in solutions of 4-NQO and sodium ascorbate.
Cancer Res 1979 Aug
PMID:Interactions of the carcinogen 4-nitroquinoline 1-oxide with the non-protein thiols of mammalian cells. 11 Apr 43

In vitro drug metabolism in the Hartley guinea pig was compared with that in two inbred guinea pig strains used as carriers for the line 10 hepatoma. We observed minor differences in enzyme specific activity among the three strains. Three weeks after intradermal inoculation of Strain 2 guinea pigs with line 10 hepatoma cells, cytochrome P450 levels and aminopyrine demethylase activity were significantly decreased. Seven to 10 days after inoculation with the ascites form of the tumor, the activities of aniline and biphenyl hydroxylases, p-aminobenzoic acid N-acetyltransferase, and dichloronitrobenzene glutathione S-aryltransferase, in addition to those of cytochrome P450 and aminopyrine N-demethylase, were probably also described.
J Natl Cancer Inst 1977 Dec
PMID:Effect of strain differences and tumor presence on microsomal drug metabolism in the guinea pig: brief communication. 20 Jul 61

The C3H mouse liver h-protein is a cytoplasmic protein to which metabolites of carcinogenic polycyclic hydrocarbons bind covalently following i.p. injection. It has a number of physical properties similar to those of the glutathione S-transferases (EC 2.5.1.18). These properties include molecular weight (40,000), number of subunits (2), basic isoelectric point around 8.0, sedimentation coefficient (3.5S), and subcellular localization. In this communication, we have shown that glutathione S-transferase activities with 1,2-epoxy(3-p-nitrophenoxy)propane and benz[a]anthracene 5,6-oxide as substrates were separated from the h-protein on carboxymethylcellulose and isoelectrofocusing columns. The purification of the mouse h-protein as a [3H]-7,12-dimethylbenz[a]anthracene conjugate or as the free form is also described.
Cancer Res 1978 May
PMID:Separation of glutathione S-transferase activities with epoxides from the mouse liver h-protein, a major polycyclic hydrocarbon-binding protein. 41 9

The glutathione S-transferases are a major group of soluble liver proteins that are involved in the cellular detoxification of electrophilic compounds. Several of these transferases, in particular glutathione S-transferase B or ligandin, interact with chemical carcinogens in vivo. This review presents evidence that ligandin and the other glutathione S-transferases reduce the susceptibility of the liver to aminoazo dye-, polycyclic aromatic hydrocarbon-, and aromatic amine-induced carcinogenesis. Several possible mechanisms by which the transferases reduce hepatocarcinogenesis are proposed. These mechanisms include the direct binding and detoxification of carcinogens by the transferases and the inctivation of steroids and other agents that indirectly stimulate carcinogen activation.
Cancer Res 1977 Jan
PMID:Ligandin, the glutathione S-transferases, and chemically induced hepatocarcinogenesis: a review. 83 Apr 23

The individual and combined effects of dietary toasted soybean meal (3.13-25%) and dietary licorice root extract (0.38-3.0%) on selected liver and intestinal enzyme levels and on clinical chemistry and histopathological parameters were evaluated on male F344 rats. All parameters were measured one and three months after the 50-day-old rats were started on the diets. By use of newly developed high-performance liquid chromatography-based analytic methods, measurable levels of daidzein (2.67 micrograms/ml) and glycyrrhetinic acid (7.87 micrograms/ml) were detected in the sera of rats on the 25% soybean and 3% licorice diets, respectively. Histopathological evaluations of organs and tissues yielded only nonsignificant strain-related changes. At all dosages, there were no significant soybean- or licorice-related anatomic lesions or hematologic changes. In the clinical biochemistry profile, soybean meal caused moderate but significant dose-dependent decreases in serum cholesterol and increases in alkaline phosphatase, blood urea nitrogen, and phosphorus, which remained within the normal range. Liver glutathione transferase, catalase, and protein kinase C showed significant inductions (up to 50%) in response to increasing doses of soybean meal and licorice extract, with evidence for only marginal interaction between the two additives. Their effects on the intestinal mucosa were not significant. Ornithine decarboxylase levels, an indicator of promotional activity, were unchanged or repressed by the additives. The favorable effects of up to 25% toasted soybean meal and 3% licorice root extract on the levels of the four enzymes, without unfavorable changes in clinical parameters, might account in part for the chemopreventive activities of these additives. These effects would be in addition to direct inhibitory effects of known components in these additives on these or other enzymes or modulation of hormone activity that is not evaluated in this study.
Nutr Cancer 1992
PMID:Effect of dietary soybean and licorice on the male F344 rat: an integrated study of some parameters relevant to cancer chemoprevention. 129 95

Dimethyl diphenyl bicarboxylate (dimethyl-4,4'-dimethyloxy-5,6,5',6'-dimethylene-dioxy-di phe nyl-2,2'- bicarboxylate, DDB), a synthetic mimic of the natural product schizandrin C, is used in China as a hepatoprotective agent to improve the liver functions of patients with hepatitis or under cancer chemotherapy. In this study, we investigated the effects of DDB on liver microsomal drug-metabolizing enzymes. When male Sprague-Dawley rats were treated with a daily intragastric dose of DDB (200 mg.kg-1) for 3 d, the microsomal pentoxyresorufin dealkylase activity and P-450 2B1 protein levels were markedly increased. The fold increase was lower than that by phenobarbital (75 mg.kg-1, ip once daily x 3 d). The level of P-450 2B1 mRNA was elevated by DDB but the magnitude of the elevation was much less than that caused by phenobarbital. DDB also increased the rates of testosterone hydroxylation at positions 16 beta, 16 alpha, 6 beta, and 2 beta as well as the rate of ethoxyresorufin dealkylation, suggesting moderate increases in the levels of P-450 3A and P-450 1A1 in addition to the huge increase in P-450 2B1. The level of glutathione S-transferase was also slightly increased, but the levels of P-450 2E1 and NAD(P)H: quinone oxidoreductase were not changed. The results indicate that DDB is an inducer of P-450 2B1.
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PMID:Induction of liver microsomal cytochrome P-450 2B1 by dimethyl diphenyl bicarboxylate in rats. 130 34

The detection of preneoplastic cells is very important for the analysis of carcinogenic processes and for developing strategies for prevention and treatment of cancer. We have been investigating enzyme alterations occurring during rat chemical hepatocarcinogenesis, especially to find more specific enzyme markers for preneoplastic hepatic lesions. We identified the placental form of glutathione S-transferase (GST-P; GST 7-7) as a new marker enzyme for preneoplastic hepatocytes. We also found human placental form, GST-pi, to be a possible tumor marker for various human tissues except liver. In this article, their properties and possible functions are reviewed on basis of our recent investigations. A peroxisomal enzyme, enoyl CoA hydratase, in also described as a possible negative marker for rat preneoplastic hepatic foci/nodules and hepatomas induced by peroxisome proliferators.
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PMID:Specific expression of glutathione S-transferase Pi forms in (pre)neoplastic tissues: their properties and functions. 130 37

The mRNA levels of three phosphoseryl/phosphothreonyl protein phosphatases, PP1, PP2A and PP2C, in rat liver have been determined by Northern blot analysis in various stages of rat chemical hepatocarcinogenesis using a Solt-Farber model. Five weeks after administration of diethylnitrosamine, the mRNA levels of PP1 alpha, PP2A and PP2C were elevated 8, 29 and 11 times, respectively, as compared to those of the control livers. However, in primary hepatoma induced according to the Solt-Farber model, the mRNA levels of all three protein phosphatases were dramatically decreased to normal levels or even to much lower levels, whereas the mRNA level of glutathione S-transferase placental form, a tumor marker protein, was greatly elevated as compared with that of the control livers. In a poorly differentiated hepatoma AH13, a line of rat ascites hepatoma, the mRNA level of PP1 alpha was 5.6 times higher than that of the control livers, whereas the mRNA lever of PP2C was almost the same as that of the control livers and the level of PP2A mRNA was distinctly lower than that of the control livers. These data appear to suggest some involvement of protein phosphatases in hepatocarcinogenesis.
Jpn J Cancer Res 1992 Jan
PMID:mRNA levels of catalytic subunits of protein phosphatases 1, 2A, and 2C in hepatocarcinogenesis. 131 79

Dehydroepiandrosterone, a major secretory steroid hormone of the human adrenal gland, possesses mitoinhibitory and anticarcinogenic properties. It also induces peroxisome proliferation in the livers of rats and mice. Because peroxisome proliferators exhibit hepatocarcinogenic potential, it is necessary to examine the long term hepatic effects of dehydroepiandrosterone since this hormone is contemplated for use as a potential cancer chemopreventive agent in humans. Dehydroepiandrosterone was administered in the diet at a concentration of 0.45% to F-344 rats for up to 84 weeks. At the termination of the experiment, 14 of 16 rats developed hepatocellular carcinomas. Liver tumors induced by dehydroepiandrosterone lacked gamma-glutamyl transpeptidase and glutathione S-transferase (placental form); these phenotypic properties are identical to the features exhibited by liver tumors induced by other peroxisome proliferators. Dehydroepiandrosterone was also shown to markedly inhibit liver cell [3H]thymidine labeling indices, suggesting that cell proliferation is not a critical feature in liver tumor development with this agent. These results show that although dehydroepiandrosterone exerts anticarcinogenic effects in a variety of tissues, the peroxisome-proliferative property makes it a hepatocarcinogen.
Cancer Res 1992 May 15
PMID:Hepatocarcinogenicity of dehydroepiandrosterone in the rat. 131 32

To further investigate the role of p53 gene inactivation in gastric tumorigenesis, the mutational status of the p53 gene in primary human gastric cancer samples was examined. Reverse transcriptase polymerase chain reaction and subsequent direct sequencing of the p53 gene from gastric cancer samples revealed frequent point mutations of the p53 gene: some of these coincided with those previously identified in gastric cancer cell lines. In addition, both allelic deletion analysis using pYNZ 22 and polymerase chain reaction-restriction fragment length polymorphism analysis demonstrated an allelic deletion of the p53 gene in cancer tissue which contained a point mutation of the p53 gene in the remaining allele. Transfection of the wild-type or mutant p53 genes into gastric cancer cells showed that the wild-type but none of the mutated p53 genes suppressed the colony formation of gastric cancer cells. Furthermore, the incorporation of thymidine into DNA was reduced in cancer cells expressing the wild-type p53 gene. The glutathione S-transferase-wild type p53 fusion protein bound to simian virus 40 large T antigen in COS-1 cell lysate. None of the p53 fusion proteins containing mutations at codons 143, 175, 248, or 273 bound to simian virus 40 large T antigen. By contrast, two different mutant p53 fusion proteins containing mutations specifically observed in gastric cancer bound to simian virus 40 large T antigen. These results indicate that inactivation of the p53 gene through mutations and the allelic deletion may play an important role in gastric tumorigenesis. These mutations may cause a conformational change in the p53 protein resulting in the loss of the suppression by p53 of the growth of gastric cells, partly through disruption of the association of p53 protein with a cellular component.
Cancer Res 1992 Aug 15
PMID:p53 gene mutations in human gastric cancer: wild-type p53 but not mutant p53 suppresses growth of human gastric cancer cells. 132 85


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