Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0019204 (hepatocellular carcinoma)
 71,386 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Previously, we reported that the rate of metabolism of methyl sterol intermediates of cholesterol biosynthesis by broken-cell preparations of Morriss hepatoma 7777 is very slow, whereas the intact tumors are known to synthesize cholesterol quite efficiently. Active preparations have now been obtained by substitution of pyrophosphate for phosphate buffer. Although substitution of pyrophosphate buffer markedly enhances microsomal methyl sterol demethylation rates 3- to 4-fold in hepatoma 7777, other microsomal enzymes and electron carriers in either liver or a more slowly growing hepatoma appear to be unaffected by pyrophosphate. Several properties of the active microsomal methyl sterol demethylase have now been compared for control rat liver, host liver, tumor 7777, and tumor 5123C. Conditions necessary for the assay of initial velocities of enzymic reactions in the tumor microsomes have been established with respect to the amount of protein, time-course, concentrations of cofactors and substrate, pH, and other variables. The K'm and the responses to the variables studied above are very similar for methyl sterol demethylase of microsomes isolated from control liver, host liver, tumor 5123C, and tumor 7777. The multienzymic demethylase in the various preparations has been found to be inhibited similarly by in vitro additions of cyanide, cytochrome c, and bile salts. Thus, the enzymes of the microsomal-bound 4-methyl sterol demethylase of cholesterol biosynthesis appear to be very similar in liver and these 2 Morris hepatomas. When xenobiotic inducers of microsomal oxidases, such as phenobarbital and methylcholanthrene, are administered to normal and tumor-bearing rats, elevated rates of methyl sterol demethylation are observed with isolated liver microsomes obtained from both normal and tumor-bearing rats. Similar increases are not observed in the tumors. Furthermore, daily administration of an intestinal bile acid sequestrant elevates hepatic methyl sterol demethylase, but statistically significant changes were not observed in tumors 7777 and 5123C. Since the enzymes of methyl sterol demethylase appear to be grossly similar in liver and these hepatomas, regulation of the activity of the multienzymic system contained in the tumors may be altered. On the other hand, these agents in vivo simply may not affect liver and the hepatomas similarly, due to a lack of uptake of the foreign substances by the tumor that has been transplanted to the thighs.
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PMID:Characterization of microsomal methyl sterol demethylase in two Morris hepatomas. 17 91

Injection of 3,4-benz(a)pyrene, methyl nitrosourea and phenobarbital into healthy mice of the C3HA line results in a rapid, sharp increase of [14C]-thymidine incorporated into liver microsomal DNA, accompanied by a suppression of nuclear DNA synthesis. In the liver of neoplastic mice and in the ascite cells of hepatoma 22A the system of microsomal DNA synthesis was insensitive to the injection of methyl nitrosourea. Cycloheximide and puromycin, which strongly inhibited nuclear DNA synthesis, had no effect on the synthesis of microsomal DNA. Stimulation of [14C]-thymidine incorporation into microsomal DNA after injection of methyl nitrosourea and 3,4-benz(a)pyrene may be accounted for not only by an increase of the DNA reparation processes, since caffeine, the inhibitor of post-replicatory reparation of DNA, did not eliminate the induction of microsomal DNA synthesis in the liver. Hydroxyurea in combination with methyl nitrosourea and phenobarbital significantly suppressed the synthesis of nuclear DNA in the liver and did not affect the synthesis of mtDNA; the stimulating effects of these inducers on the synthesis of microsomal DNA was thereby removed. This is indicative of independence of synthesis of microsomal DNA on that of nuclear DNA and mtDNA. Different specific radioactivities of microsomal, nuclear and mtDNAs in the regenerating mouse liver on the 5th, 10th and 15th post-hepatectomy days may be due to different metabolic stability of these DNAs. A possible role of microsomal DNA as a xenobiotic system component is discussed.
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PMID:[Accelerated microsomal DNA synthesis under the influence of xenobiotics and chemical carcinogens]. 43 79

DNA-protein interactions before and after transcriptional activation of the carcinogen- and dioxin-inducible enhancer of the murine CYP1A1 gene were detected in vivo by treatment with dimethyl sulfate followed by ligation-mediated, polymerase chain reaction-aided genomic sequencing. Following 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) treatment of mouse Hepa-1 hepatoma cells, evidence of protein binding was detected at the sequence 5' CACGCNA/T 3' within two previously defined xenobiotic response elements (XREs). The observed XRE footprint was similar to that previously identified by in vitro methylation protection footprints and attributed to the binding protein for 2,3,7,8-tetrachlorodibenzo-p-dioxin the Ah receptor. No XRE footprinting was observed in Hepa-1 mutant cells possessing a defective Ah receptor. Unexpectedly, evidence of protein binding was also detected at a G-rich DNA sequence immediately adjacent to one of the XREs. Footprinting of the G-rich sequence element, like that of XRE1 and XRE2, was dependent on the presence of a functional Ah receptor. The Ah receptor is therefore able to bind to its own DNA target sites in vivo and is also required for the binding of a second factor to the G-rich element.
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PMID:Dioxin- and Ah receptor-dependent protein binding to xenobiotic responsive elements and G-rich DNA studied by in vivo footprinting. 131 25

gamma-Glutamyltransferase (GGT, EC 2.3.2.2) is an enzyme involved in glutathione metabolism and drug and xenobiotic detoxification. Using human hepatoma Hep G2 GGT cDNA as probe, we isolated a cDNA from a human pancreatic cDNA library. Analysis of the nucleotide sequences revealed a 2244-bp insert that includes an open reading frame of 1710 bp, encoding a protein identical to the Hep G2 and human placenta GGTs. Similarly, the 5' untranslated region, though shorter, is highly homologous to that of Hep G2 cDNA. These data suggest strongly that the same gene encodes human GGT in the placenta, Hep G2 and the pancreas. We further studied the distribution of the corresponding mRNA, called type I mRNA, in different human tissues. Using a highly sensitive method associating reverse transcription with specific amplification by polymerase chain reaction, cDNA was synthesized from total RNA isolated from the tissues and GGT specific fragments were amplified. We observed the presence of a specific cDNA fragment corresponding to the type I mRNA in the human tissues and cells tested, providing the evidence for a ubiquitous expression of this GGT mRNA in human tissues.
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PMID:Gamma-glutamyltransferase: nucleotide sequence of the human pancreatic cDNA. Evidence for a ubiquitous gamma-glutamyltransferase polypeptide in human tissues. 137 36

We describe a novel transcriptional suppressor element found in the control region of the gene that encodes rat microsomal epoxide hydrolase (mEH), an inducible xenobiotic metabolizing enzyme. This element consists of the juxtaposition of two distinct factor-binding regions. The first region is composed of a series of five tandemly repeated factor-binding sequences, and the second region is an unique AT-rich factor-binding sequence. Although each region binds its cognate factor(s) in vitro, a single region does not function as a suppressor independently of the other. Transcriptional suppression was observed only when the two regions were combined. Thus, we propose that this regulatory element is a bipartite suppressor, requiring two distinct factor-binding regions for its function. The element displayed position-independent but orientation-dependent suppressor activity. The level of suppressor activity was proportional to the number of repetitive sites in region 1. We speculate that this region could mediate the dose-response behavior of mEH gene expression induced by chemical carcinogens in vivo. A qualitative difference in the region 2 binding factor(s) was observed between normal liver cells and a hepatoma cell line or carcinogen-treated liver cells. The possible relationship between this observation and the deregulation of mEH gene expression during the course of hepatocarcinogenesis is discussed.
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PMID:A bipartite suppressor: conjunction of two distinct factor-binding sites is essential for down-regulation in rat epoxide hydrolase gene expression. 140 38

The environmental contaminant, 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) induces the expression of a number of genes. The biochemical process of the induction of aldehyde dehydrogenase (ALDH-3) was investigated in rat H4IIE hepatoma cells in culture. The kinetics of ALDH-3-induction exhibited parallel increases in the rate of transcription, mRNA, protein, and enzyme activity, all reaching a plateau at 36-48 h after addition of TCDD. Half maximal and maximal inductions occurred at 0.1 and 1 nM of TCDD, respectively. No significant changes in the half-life of ALDH-3 mRNA (14 h) were observed in the cells exposed to three different concentrations of TCDD. Other inducers of xenobiotic metabolism, such as 3-methylcholanthrene and beta-naphthoflavone, also induced ALDH-3 mRNA to a similar level as TCDD, whereas antioxidants or electrophiles, such as tert-butylhydroquinone and dimethyl fumarate, did not show any induction of ALDH-3 mRNA. To examine the involvement of the aryl hydrocarbon receptor (Ah receptor) in the induction of ALDH-3, mouse variant cell lines defective in cytochrome P450IA1-induction and a parental wild type cell line (Hepa1c1c7) were studied. ALDH-3 mRNA and the transcription of its gene were detected in TCDD-treated wild type cells, but not in the treated and untreated variant cells. These results demonstrate that TCDD induces transcription of the ALDH-3 gene via its binding to the Ah receptor.
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PMID:Regulation of 2,3,7,8-tetrachlorodibenzo-p-dioxin-inducible expression of aldehyde dehydrogenase in hepatoma cells. 141 78

1. The activities of xenobiotic-metabolizing enzymes were determined in hybrid cell lines (hepatocytoma, HPCT) which have been established by fusion of liver parenchymal cells from adult rat (PC) with cells from a Reuber hepatoma cell line (FAO). 2. Cytochrome P450 was not measurable spectrophotometrically in FAO and HPCT. P450-dependent conversion of testosterone was below the detection limit in FAO and only marginally present in HPCT. 3. Microsomal and cytosolic epoxide hydrolase, glutathione S-transferase and phenol sulphotranserase were low or even below detection limit in FAO. These enzyme activities were significantly higher in HPCT and correspond to about 1-10% the activities measured in PC. 4. 1-Naphthol UPD-glucuronosyl transferase activity was about 20% in FAO and about 100% in HPCT compared to PC. 5. Metabolic conversion of benzo[a]pyrene was low in FAO, high in PC, and intermediate in HPCT. The presented data, however, do not allow the conclusion whether this intermediate rate is catalyzed by similar P450 isoenzymes as in PC. 6. Due to the easily measurable phase II-metabolizing enzyme activities HPCT may, however, be useful for in vitro enzyme induction or repression studies.
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PMID:Xenobiotic-metabolizing enzyme activities in hybrid cell lines established by fusion of primary rat liver parenchymal cells with hepatoma cells. 149 90

Dietary composition is a major determinant of cancer risk in humans and experimental animals. Major and minor components of the diet may enhance or suppress the development of malignancy. Many dietary constituents also modify the metabolism of carcinogens by induction of enzymes involved in xenobiotic metabolism, and this is one well-established mechanism for modulating the risk of cancer. We have developed a simple system for rapid detection and measurement of the induction of enzymes that detoxify carcinogens (phase II enzymes), based on the direct assay of the activity of quinone reductase [NAD(P)H:(quinone-acceptor) oxidoreductase, EC 1.6.99.2] in murine hepatoma cells grown in microtiter plate wells. Survey of extracts of a variety of commonly consumed, organically grown vegetables for quinone reductase inducer activity identified crucifers (and particularly those of the genus Brassica) as singularly rich sources. It is therefore of interest that high consumption of these types of vegetables has been correlated with decreased cancer risk in humans. The assay system also measures toxicity, which was unrelated to inducer potency among the vegetable extracts examined. By use of mutant hepatoma cells (defective in regulation of certain cytochrome P-450 enzymes) selective (monofunctional) inducers of protective phase II enzymes can be distinguished from (bifunctional) inducers that also elevate cytochromes P-450 (phase I enzymes) and thereby pose the risk of carcinogen activation. The assay system therefore permits not only rapid detection of inducers of anticarcinogenic enzymes in the human diet but also elucidation of effects of storage and processing on inducer activities.
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PMID:Rapid detection of inducers of enzymes that protect against carcinogens. 154 2

Consumption of vegetables, especially crucifers, reduces the risk of developing cancer. Although the mechanisms of this protection are unclear, feeding of vegetables induces enzymes of xenobiotic metabolism and thereby accelerates the metabolic disposal of xenobiotics. Induction of phase II detoxication enzymes, such as quinone reductase [NAD(P)H:(quinone-acceptor) oxidoreductase, EC 1.6.99.2] and glutathione S-transferases (EC 2.5.1.18) in rodent tissues affords protection against carcinogens and other toxic electrophiles. To determine whether enzyme induction is responsible for the protective properties of vegetables in humans requires isolation of enzyme inducers from these sources. By monitoring quinone reductase induction in cultured murine hepatoma cells as the biological assay, we have isolated and identified (-)-1-isothiocyanato-(4R)-(methylsulfinyl)butane [CH3-SO-(CH2)4-NCS, sulforaphane] as a major and very potent phase II enzyme inducer in SAGA broccoli (Brassica oleracea italica). Sulforaphane is a monofunctional inducer, like other anticarcinogenic isothiocyanates, and induces phase II enzymes selectively without the induction of aryl hydrocarbon receptor-dependent cytochromes P-450 (phase I enzymes). To elucidate the structural features responsible for the high inducer potency of sulforaphane, we synthesized racemic sulforaphane and analogues differing in the oxidation state of sulfur and the number of methylene groups: CH3-SOm-(CH2)n-NCS, where m = 0, 1, or 2 and n = 3, 4, or 5, and measured their inducer potencies in murine hepatoma cells. Sulforaphane is the most potent inducer, and the presence of oxygen on sulfur enhances potency. Sulforaphane and its sulfide and sulfone analogues induced both quinone reductase and glutathione transferase activities in several mouse tissues. The induction of detoxication enzymes by sulforaphane may be a significant component of the anticarcinogenic action of broccoli.
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PMID:A major inducer of anticarcinogenic protective enzymes from broccoli: isolation and elucidation of structure. 154 3

The incidence and phenotype of preneoplastic and neoplastic liver lesions appearing in LEC rats after recovery from severe hereditary hepatitis were studied in comparison with the liver lesions appearing in chemical liver carcinogenesis. The livers of 168 rats (90 male, 78 female) were stained for seven histochemical markers at different time periods from the 20th week to the 122nd week of life. Glucose-6-phosphatase (G6Pase), adenosine triphosphatase (ATPase) and non-specific esterase (ES) were used as negative markers. Gamma-glutamyltransferase (GGT), glutathione S-transferase placental form (GSTP), esterase isozyme L-1 (L1) and alpha-fetoprotein (AFP) were used as positive markers. The study on the incidence of liver lesions in the LEC rats revealed sequential development of liver foci, nodules and hepatocellular carcinomas (HCCs) similar to those seen in chemically induced liver carcinogenesis. These lesions appeared earlier and more frequently in male LEC rats than in female ones, suggesting the importance of hormonal environment in spontaneous HCC development. The histochemical analysis of spontaneous liver lesions in LEC rats showed that GSTP was the most reliable positive marker as previously reported in chemical liver carcinogenesis. There was no essential difference in the expression of the markers in spontaneous and chemically induced liver lesions except for L1, which is considered to be related to xenobiotic metabolism. The results of this study suggest that both spontaneous and chemically induced liver cancer may develop by passing through phenotypically similar preneoplastic processes. In addition, the LEC rat uniquely showed chronic liver damage (hepatocyte death and regeneration) at the promotion stage of carcinogenesis. Such a natural history of HCC development in LEC rats is similar to that of human HCC which is frequently associated with chronic liver damage. Thus, the LEC rat provides a useful model for studying the process and underlying mechanisms of human liver cancer development.
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PMID:Phenotype of preneoplastic and neoplastic liver lesions during spontaneous liver carcinogenesis of LEC rats. 169 69


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