Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: CAS:7732-18-5 (water)
694,341 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Methadone . HCl given in the drinking water for 4 weeks increased microsomal epoxide hydratase activity in the liver of adult male Wistar rats, with no change in aryl hydrocarbon hydroxylase activity. In contrast, in female rats it raised aryl hydrocarbon hydroxylase with no change in epoxide hydratase activity. Gonadectomy altered the effect of methadone on epoxide hydratase, but not on aryl hydrocarbon hydroxylase activity, in both sexes. In ovariectomized rats, but not in controls, methadone nearly doubled the epoxide hydratase activity, whereas in male rats castration decreased the inductive effect of methadone. Gonadectomy had a significant effect on the results of methadone treatment with respect to glutathione S-transferase activity in female rats. A sex difference was noted in the control levels of aryl hydrocarbon hydroxylase and glutathione S-transferase, but not of epoxide hydratase activity. The glutathione S-transferase and aryl hydrocarbon hydroxylase activities were decreased in castrated male rats, whereas epoxide hydratase activity was unaltered. It is concluded that sex hormones play an important role in the induction of epoxide hydratase and glutathione S-transferase by methadone, but not of aryl hydrocarbon hydroxylase, at this particular dosage regime.
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PMID:The effects of gonadectomy on the hepatic activities of aryl hydrocarbon hydroxylase, epoxide hydratase, and glutathione S-transferase in Wistar rats pretreated with oral methadone . HCl. 44 29

1. The alkenyl phosphate insecticide, dimethylvinphos, is rapidly metabolized and eliminated by rats and dogs. 2. Metabolism proceeds via demethylation followed by the hydrolysis of desmethyl dimethylvinphos to 2,4-dichlorophenacyl chloride which is further metabolized mainly to 2,4-dichloromandelic acid, 1-(2,4-dichlorophenyl)ethanol (glucuronide) and 2,4-dichlorphenylethanediol (glucuronide). 3. The dechlorination of 2,4-dichlorophenacyl chloride to 2,4-dichloroacetophenone proceeds via the spontaneous formation of S-(2,4-dichlorophenacyl) glutathione which is converted to the ketone by an enzyme-catalysed glutathione-dependent reaction. 4. Demethylation of dimethylvinphos occurs in liver fractions via the action of two enzymes: glutathione S-methyl transferase in the cytosol, and microsomal mono-oxygenase. The relatively high activities of both enzymes in dog liver (compared with rat liver) partly account for the observed differences in metabolism and toxicity of dimethylvinphos in the two species. 5. The glutathione transferase is enhanced twofold by pre-treatment of rats with 0-1% phenobarbital in their drinking water. This treatment also induces the microsomal demethylation 45-fold and results in a greater than 13-fold protective effect against the acute toxic effects of dimethylvinphos.
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PMID:Metabolic demethylation of the insecticide dimethylvinphos in rats, in dogs, and in vitro. 100 19

The dose-response of phenobarbital (PB) promotion of hepatocarcinogenesis in rats was investigated. Male F344 rats were given 1, 4, 16, 75, 300 or 1200 p.p.m. PB solutions given ad libitum as their drinking water for 39 weeks following initiation with a single i.p. injection of diethylnitrosamine (DEN) (100 mg/kg). At week 40, the incidence of hepatic tumors was increased clearly in the DEN + PB groups given 300 p.p.m. PB or above, as compared to that in the group given DEN only. Linear dose-response curves for numbers and sizes of enzyme-altered hepatic foci (gamma-glutamyl-transpeptidase or placental glutathione S-transferase positive foci) were obtained in the dose range 16-1200 p.p.m. PB. The minimum promoting dose level of PB for enzyme-altered foci, estimated from dose-response curves by the Logit model, was calculated to be 15-23 p.p.m. Thus while dose dependence was demonstrated over a large range, a threshold was evident at low doses.
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PMID:Threshold dose dependence in phenobarbital promotion of rat hepatocarcinogenesis initiated by diethylnitrosamine. 134 16

In this study we demonstrate that chloroform, a widely used industrial solvent, a medicinal chemical and a common drinking water contaminant, reduces the number of detectable preneoplastic enzyme-altered foci [gamma-glutamyltranspeptidase-positive (GGT+) and placental form glutathione S-transferase-positive (GST-P+)] in the liver of male Fischer 344 rats. The animals were given a partial hepatectomy and 18 h later received a single oral dose of either 0.5 mmol/kg diethylnitrosamine (DENA) or saline. Two weeks later, groups of 12 animals were started on drinking water containing phenobarbital with varying concentrations (200-1800 mg/l) of chloroform fro 12 weeks. Treated and control animals were killed and the number and the volume of GGT+ and GST-P+ expressing hepatic foci were tabulated. The numbers of foci per unit volume (and per unit area), the percent focal volume and the focal liver were reduced by chloroform in a dose-dependent manner. The mean focal volume was not influenced by chloroform. A plausible explanation for these results could be that chloroform exerts its focal inhibitory effect either by selectively killing the putative initiated cells, by retarding the inherent growth rate of enzyme-altered cells or by reducing the effectiveness of the promoter, phenobarbital. The available evidence suggests that the first hypothesis is the most likely explanation for these observations. These results are consistent with earlier studies showing that chloroform inhibits tumorigenesis in rodents.
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PMID:Chloroform inhibits the development of diethylnitrosamine-initiated, phenobarbital-promoted gamma-glutamyltranspeptidase and placental form glutathione S-transferase-positive foci in rat liver. 135 81

Investigation of the effect of various doses of phenobarbital (PB) in Experiment I (PB dose levels: 0, 38, 75, 150, 300 or 600 ppm) and Experiment II (PB dose levels: 0, 1, 4 or 16 ppm) given to male F344 rats (20 animals/group) in drinking water for 39 weeks after a single intraperitoneal injection of diethylnitrosamine (DEN) was performed using incidence of hepatic tumors and number or area of enzyme-altered foci as end-point lesions. There were no significant differences in the final body weight changes between DEN-initiated PB treatment (DEN+PB) and DEN-initiated (DEN) groups. Dose-dependent increases in the absolute and relative liver weights and in the incidence of hepatic carcinoma were found in the DEN+PB groups treated with 38 ppm PB or above 75 ppm PB or above, respectively. The numbers or areas of gamma-GTP or GST-P positive foci of the liver were increased in the DEN+PB groups treated with 38 ppm PB or above. Additional investigation of 7-ethoxycoumarin o-deethylase (7-ECDE) induction in Experiment III, 7 groups consisting of 3 animals/group being fed water containing PB (0, 1, 4, 16, 75, 300 or 1200 ppm) for 1 week after the initiation of DEN and a further 7 groups (5 rats/group) receiving the same drinking water without DEN treatment, revealed dose-dependent increases of 7-ECDE in the DEN+PB groups and PB groups treated with 16 ppm PB or above. The present studies indicate that the threshold for promotion by PB is 38 ppm.
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PMID:[Dose-response relationship of promotion by phenobarbital in rat two-stage hepatocarcinogenesis]. 136 5

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 efficacy of a wide-spectrum organ carcinogenesis model for detection of modification potential of exogenous agents was investigated in F344 male rats. Groups of animals were sequentially injected with N-bis(2-hydroxypropyl)nitrosamine (1000 mg/kg body weight, i.p., in saline, twice in week 1), N-ethyl-N-hydroxyethylnitrosamine (1500 mg/kg body weight, i.g., in distilled water, twice in week 2) and 3,2'-dimethyl-4-aminobiphenyl (75 mg/kg body weight, s.c., in corn oil, twice in week 3) for wide-spectrum initiation of target organs and then given one of 10 test chemicals, comprising 6 hepatocarcinogens and 4 non-hepatocarcinogens, for 12 weeks. All 10 chemicals exerted modifying effects in their respective target organs. Enhancing influence could be detected in the liver and urinary bladder with 2-acetylaminofluorene, ethionine, and 3'-methyl-4-dimethylaminoazobenzene; in the liver and thyroid with 4,4'-diaminodiphenylmethane and phenobarbital; in the esophagus and urinary bladder with N-butyl-N-(4-hydroxybutyl)nitrosamine; in the forestomach and urinary bladder with butylated hydroxyanisole; in the liver with 7,12-dimethylbenz[a]anthracene and in the liver and lung with 3-methylcholanthrene. Inhibitory effects on development of glutathione S-transferase placental form-positive liver cell foci were observed with clofibrate. The results indicate that the present model can be reliably utilized as a whole body medium-term bioassay system for assessment of environmental cancer modifiers.
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PMID:Modifying effects of various chemicals on tumor development in a rat wide-spectrum organ carcinogenesis model. 139 18

The crystal structure of a mu class glutathione S-transferase (EC 2.5.1.18) from rat liver (isoenzyme 3-3) in complex with the physiological substrate glutathione (GSH) has been solved at 2.2-A resolution by multiple isomorphous replacement methods. The enzyme crystallized in the monoclinic space group C2 with unit cell dimensions of a = 87.98 A, b = 69.41 A, c = 81.34 A, and beta = 106.07 degrees. Oligonucleotide-directed site-specific mutagenesis played an important role in the solution of the structure in that the cysteine mutants C86S, C114S, and C173S were used to help locate the positions of mercuric ion sites in nonisomorphous derivatives with ethylmercuric phosphate and to align the sequence with the model derived from MIR phases. A complete model for the protein was not obtained until part of the solvent structure was interpreted. The dimer in the asymmetric unit refined to a crystallographic R = 0.171 for 19,298 data and I > or = 1.5 sigma (I). The final model consists of 4150 atoms, including all non-hydrogen atoms of 434 amino acid residues, two GSH molecules, and oxygen atoms of 474 water molecules. The dimeric enzyme is globular in shape with dimensions of 53 x 62 x 56 A. Crystal contacts are primarily responsible for conformational differences between the two subunits which are related by a noncrystallographic 2-fold axis. The structure of the type 3 subunit can be divided into two domains separated by a short linker, a smaller alpha/beta domain (domain I, residues 1-82), and a larger alpha domain (domain II, residues 90-217). Domain I contains four beta-strands which form a central mixed beta-sheet and three alpha-helices which are arranged in a beta alpha beta alpha beta beta alpha motif. Domain II is composed of five alpha-helices. Domain I can be considered the glutathione binding domain, while domain II seems to be primarily responsible for xenobiotic substrate binding. The active site is located in a deep (19-A) cavity which is composed of three relatively mobile structural elements: the long loop (residues 33-42) of domain I, the alpha 4/alpha 5 helix-turn-helix segment, and the C-terminal tail. GSH is bound at the active site in an extended conformation at one end of the beta-sheet of domain I with its backbone facing the cavity and the sulfur pointing toward the subunit to which it is bound.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The three-dimensional structure of a glutathione S-transferase from the mu gene class. Structural analysis of the binary complex of isoenzyme 3-3 and glutathione at 2.2-A resolution. 142 Jan 39

The high-level expression and purification of Poa p IX recombinant grass pollen allergens were examined utilizing a modified pGEX plasmid, designated as pGEX 2T-1. This vector permits frame-1 ligation of lambda gt11 cDNA inserts and cleavage of the recombinant allergenic protein from the fusion partner glutathione S-transferase. The expression of the fusion proteins in water-soluble form varied among the transformants of the same bacterial strain and also between different host strains. Purification of the fusion proteins by affinity chromatography employing glutathione agarose gel revealed that proteases in the bacterial lysate bound to the gel and were co-eluted with the fusion proteins. These proteases, which specifically degraded the recombinant proteins to varying degrees, were inhibited by both of the inhibitors, phenylmethylsulfonyl fluoride and aprotinin. Cleavage by thrombin of the fusion proteins indicated that the structure of the individual protein affected the thrombin accessibility to the cleavage site. Increased concentration of thrombin partly compensated this effect, but resulted in a broader specificity of the enzyme. By contrast, cleavage of the fusion protein when it was still attached to the glutathione gel was convenient and led to purification of the product devoid of proteolytic activity. Since almost all the recombinant allergens have been cloned in lambda gt11 vector, the pGEX 2T-1 vector reported herein will facilitate the synthesis, purification of the corresponding allergenic proteins or their peptides in soluble and biologically active forms.
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PMID:Expression and thrombin cleavage of Poa p IX recombinant allergens fused to glutathione S-transferase. 142 62

Dietary animal fat increases the risk of colorectal cancer. A factor in the increased risk is hypothesised to result from the inhibition of isoforms of a colonic epithelial cell enzyme that detoxifies genotoxins, glutathione S-transferase, by one of the major secondary bile acids produced in the colon by fat digestion, lithocholic acid. The inhibition allows mutagens to persist in colonic epithelial cells while proliferation is stimulated by secondary bile acids, with a concomitant greater frequency of neoplasia-associated mutations than when proliferation is stimulated in the absence of the mutagens. Elements in the hypothesis include the ability of relatively low concentrations of lithocholic acid to inhibit isoforms of glutathione S-transferase found in colon epithelial cells, entry of lithocholic acid into the epithelial cells, and the correlation of neoplasia-associated colon pathology with high levels of lithocholic acid in fecal water. Higher pH values in the colonic stream are identified as exacerbating the effects of lithocholic acid by increasing its solubility. Lithocholic acid is suggested to be more inhibitory to glutathione S-transferase than the other major colonic secondary bile acid, deoxycholic acid, on the basis of inhibition-structure relationships.
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PMID:A factor in the increased risk of colorectal cancer due to ingestion of animal fat is inhibition of colon epithelial cell glutathione S-transferase, an enzyme that detoxifies mutagens. 146 Nov 70


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