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: UMLS:C0019204 (hepatocellular carcinoma)
71,386 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

Through a series of promoter deletions and gene transfer experiments we have examined the basal regulation and glucocorticoid-mediated repression of the rat epoxide hydrolase gene. Three regions of the 5' flanking sequence were found to influence the basal level of promoter function in H4IIE hepatoma cells. Region A (-891 to -355 bp) contains an apparent repressor of epoxide hydrolase expression, while regions B (-271 to -171 bp) and C (-141 to -85) were found to contain important sequences required for optimal promoter activity. Previous work has demonstrated that dexamethasone represses epoxide hydrolase transcription by approximately 50% in isolated rat liver nuclei, and, in this study, we have demonstrated that the ability of the epoxide hydrolase promoter to drive CAT expression is similarly repressed in H4IIE cells treated with 1 microM dexamethasone. Furthermore, the level of endogenous epoxide hydrolase mRNA is decreased by 70-88% in nontransfected H4IIE cells treated with dexamethasone. Interestingly, promoter activity was not decreased by dexamethasone in COS cells, which lack glucocorticoid receptors. The current data show that sequences from -42 to +110 bp are sufficient to support the dexamethasone response, and, furthermore, they suggest that repression may not require direct interaction of the ligand-receptor complex with the promoter region.
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PMID:Glucocorticoid repression and basal regulation of the epoxide hydrolase promoter. 235 Jan 82

An antibody (anti-EH) specific for microsomal epoxide hydrolase (mEH) from rhesus monkey liver has been used to test the immunochemical relationship between human liver mEH and the serum EH levels in human patients with hepatocellular carcinoma (HCC). Immunoblots of separated rhesus monkey and human liver microsomal proteins revealed that anti-EH was selective for a single polypeptide band of similar mol. wt, approximately 49 kd, in both species. Anti-EH was also able to precipitate 100% of the activity for two substrates specific in the mouse for mEH, cis-stilbene oxide and benzo[a]-pyrene-4,5-oxide, in solubilized human liver microsomes. In contrast, only 20% of the microsomal trans-stilbene oxide hydrolase activity was precipitated under similar conditions, providing immunochemical evidence that a distinct EH, with substrate selectivity similar to the cytosolic EH, resides in human liver microsomes. Immunoprecipitation of serum from a patient with elevated EH activity resulted in total precipitation of cis-stilbene oxide hydrolase activity. An enzyme-linked immunoabsorbant assay (ELISA) was developed using anti-EH with detection limits of 1 ng/ml. A high correlation between the enzymatically and immunochemically determined levels of serum EH provided further evidence for the immunochemical similarity of human liver microsomal and serum EH. In addition, the ELISA was equally capable of identifying elevated serum EH in patients with HCC, and should prove invaluable in evaluating the effectiveness of serum EH levels as a marker for HCC.
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PMID:Immunochemical comparison of human and rhesus monkey liver microsomal and the hepatocellular carcinoma-induced human serum epoxide hydrolases (preneoplastic antigens): basis for an enzyme-linked immunoabsorbent assay. 253

In cultured human hepatoma cells phenolphthalein glucuronidation was increased 3-fold by 2 mM phenobarbitone (PB) in the culture medium but not by 25 microM benz(a)anthracene (BA), while 1-naphthol glucuronidation was not increased by either PB or BA. Ethoxyresorufin O-deethylation (EROD) was increased 15-fold by BA but not by PB, while the O-dealkylations of pentoxyresorufin (PROD) and benzyloxyresorufin (BROD) were increased by either PB or BA. The BROD activity increased by BA was sensitive to inhibition by alpha-naphthoflavone whereas that induced by PB was not. This suggests induction of different cytochrome P-450 isoenzymes. Control Hep G2 cells had similar glucuronide conjugation and cytochrome reductase activities to freshly isolated human adult hepatocytes, but had lower O-dealkylation and elevated microsomal epoxide hydrolase activities.
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PMID:Mixed function oxidase and UDP-glucuronyltransferase activities in the human Hep G2 hepatoma cell line. 284 53

Short-term treatment of rats with hepatocarcinogens elicits a consistent pattern of phenotypic changes in hepatic drug metabolizing enzymes, the most striking of which is a marked increase in microsomal epoxide hydrolase (EH) activity. The antihistaminic drug methapyrilene induces a high incidence of hepatocellular carcinoma in F-344 rats. The studies reported here were designed to assess the effects of methapyrilene on hepatic EH activity, cytochrome P-450-dependent mixed-function oxidase activities, liver morphology, and liver-derived serum enzymes. Male F-344 rats were treated with three daily oral doses of methapyrilene-HCl, up to 300 mg/kg/day, and were sacrificed 48 hr after the last dose. Hepatic microsomal EH and cytosolic DT-diaphorase activities were increased in a dose-related fashion, to 420 and 230% of control, respectively. Cytochrome P-450 content and benzphetamine-N-demethylase and ethoxycoumarin-O-deethylase activities were concomitantly decreased to 35-50% of control. Serum gamma-glutamyl transpeptidase and alanine aminotransferase activities were elevated 22- to 27-fold, and serum bile acids to 36-fold by treatment with methapyrilene. Periportal lesions, characterized by inflammation, nuclear and nucleolar enlargement, bile duct hyperplasia, and hepatocellular necrosis, were observed following methapyrilene administration. The severity of the periportal lesion correlated with elevations in the serum chemistry parameters. The increases noted in microsomal EH activity supports the suggestion that this enzyme may be a useful biochemical marker for exposure to hepatocarcinogens.
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PMID:Effects of methapyrilene on rat hepatic xenobiotic metabolizing enzymes and liver morphology. 285 28

The expression of epoxide hydrolases was studied in cultured rat hepatocytes and hepatoma cell lines. Styrene 7,8-oxide and benzo[a]pyrene 4,5-oxide were used as substrates for microsomal epoxide hydrolase and trans-stilbene oxide for the cytosolic form of this enzyme. In freshly isolated hepatocytes from control rats, microsomal epoxide hydrolase activity was 7.7 and 10.8 nmoles/mg cellular protein/min with benzo[a]pyrene 4,5-oxide and styrene 7,8-oxide as substrates respectively. This enzyme activity increased by more than 2-fold in hepatocytes after 24 hr in culture and remained elevated throughout 96 hr using both substrates. In cultured hepatocytes from rats pretreated in vivo with phenobarbital, trans-stilbene oxide, 2-acetylaminofluorene and N-hydroxy-2-acetylaminofluorene, both benzo[a]pyrene 4,5-oxide and styrene 7,8-oxide hydrolase activities were increased greater than 1.8 relative to controls. Hepatocytes from 2-acetylaminofluorene-pretreated animals at 24 hr in culture had approximately 9-fold higher activities than control hepatocytes. In marked contrast to microsomal epoxide hydrolase activity, the cytosolic enzyme showed an initial activity of 191 pmoles/mg cellular protein/min in freshly isolated hepatocytes, decreased by 75% after 24 hr in culture, and was barely detectable at 96 hr. A similar trend was apparent in hepatocytes from the pretreated animals. In vitro treatment of hepatocytes with trans-stilbene oxide and phenobarbital increased microsomal epoxide hydrolase, while this activity was refractory to 2-acetylaminofluorene treatment. Styrene 7,8-oxide hydrolase activity was increased in the McA-RH-7777 rat hepatoma cell line by phenobarbital, trans-stilbene oxide and 2-acetylaminofluorene treatment. Similarly, benzo[a]pyrene 4,5-oxide hydrolase activity was also increased in this cell line by treatment with phenobarbital and trans-stilbene oxide but not by 2-acetylaminofluorene. Microsomal epoxide hydrolase activity in rat H4-II-E hepatoma cells was refractory to induction, except by trans-stilbene oxide treatment, which caused a 70% increase in benzo[a]pyrene 4,5-oxide hydrolase activity.
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PMID:Induction of epoxide hydrolase in cultured rat hepatocytes and hepatoma cell lines. 399 64

Microsomal epoxide hydrolase activity, determined using benzpyrene 4,5-oxide and styrene 7,8-oxide, increased in cultured hepatocytes compared to freshly isolated cells. In contrast, cytosolic epoxide hydrolase activity, assayed using trans-stilbene oxide, had decreased 80% by 24 hr and was barely detectable after 96 hr in culture. There was no difference in enzyme activity between freshly isolated hepatocytes and the two rat hepatoma cell lines McA-RH 7777 and H4-II-E, when styrene 7,8-oxide was used as substrate. However, benzpyrene 4,5-oxide hydrolase activity of the McA-RH 7777 and H4-II-E cell lines were 55 and 10%, respectively, of freshly isolated hepatocytes. These results show that hepatoma cell lines provide a suitable system for studying the regulation of both the microsomal and cytosolic epoxide hydrolase enzymes.
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PMID:Expression of microsomal and cytosolic epoxide hydrolases in cultured rat hepatocytes and hepatoma cell lines. 668 36

Rat liver chemical hepatocarcinogenesis, induced by interrupted feeding of 2-acetylaminofluorene, results in various cellular preneoplastic stages and finally in a hepatoma in about 70 to 90 percent of the rats. The putative precursors of hepatomas, called hyperplastic nodules, appear after 12 weeks of feeding and, after 16 weeks of feeding carcinogen, most of them are persistent. Epoxide hydrolase is a tightly bound endoplasmic reticulum enzyme which is strongly induced in hyperplastic nodules and hepatomas. This enzyme has been purified, high-titre rabbit antiserum prepared to it, and this antiserum used to search for epoxide hydrolase immunodeterminants in the sera from chemically induced nodule or hepatoma bearing rats. An enzyme linked immunosorbent assay (ELISA) assay using this antiserum showed significant titres of circulating microsomal epoxide hydrolase antigen, range 0.01 to 2.50 (mean 1.18 +/- 0.30) micrograms per ml, in all 24 hepatoma bearing rats tested. Eight sera from animals with large hyperplastic nodules were also significantly positive for this antigen, while sera from six normal controls were negative (less than 0.004 microgram per ml serum). A passive hemagglutination inhibition assay with sheep or normal rat red blood cells sensitized with pure rat microsomal epoxide hydrolase was capable of detecting 0.2 microgram hydrolase per ml serum. With this assay, sera from four rats with hepatomas were found to contain 0.8 to 1.6 micrograms epoxide hydrolase immunodeterminants per ml. Control rat sera had no detectable immunodeterminants. Thus epoxide hydrolase, a marker induced during experimental chemical hepatocarcinogenesis and called the preneoplastic antigen, has been shown to be circulating in the tumor bearing host.
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PMID:Epoxide hydrolase: a marker for experimental hepatocarcinogenesis. 669 87

Samples of normal and pathological human liver were assayed for microsomal epoxide hydrolase activity using the chlorinated epoxide HEOM as substrate. The enzyme activity in liver samples from normal patients was 72.3 +/- 9.8 nmoles mg protein-1.min-1, which is comparable to the highest values recorded in mammals, and much higher than those found in rats and mice. A microassay procedure was developed to enable the estimation of activity in needle biopsy samples (5-20 mg), obtained from patients with normal and diseased livers. Three epileptic patients who had received regular doses of phenobarbitone and/or phenytoin showed activities significantly higher than those found in all other samples (P less than 0.01). These appeared to be examples of enzyme induction. Assays were also performed on samples from six patients with alcohol-related liver disease and one patient with hepatocellular carcinoma. The role of epoxide hydrolase in the metabolism of carcinogenic epoxides is discussed in relation to these findings.
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PMID:The assay of microsomal epoxide hydrolase in normal and pathological human liver. 709 25

Recently two different bile-acid carriers for the hepatocellular sodium-dependent uptake of taurocholate have been described. The first transport system was isolated and characterized by functional expression cloning in Xenopus laevis oocytes. The corresponding cDNA clone, named Ntcp for Na+/taurocholate co-transporting polypeptide, codes for a protein of 362 amino acids and shows no similarity to previously known sequences. The transport function of this carrier system is well documented by expression in Xenopus laevis oocytes and by transient and stably transfected cell lines. In addition, several lines of evidence implied that the well-known xenobiotic-metabolizing enzyme microsomal epoxide hydrolase (mEH, EC 3.3.2.3) is also able to mediate sinusoidal uptake of taurocholate. Furthermore, it was claimed that the same enzyme also mediates the uptake of the conjugated bile acid into the smooth endoplasmic reticulum (ER). No direct proof of the transport function of mEH by its heterologous expression has yet been published. In the present work we used a stable transfected cell line that expressed high levels of heterologous mEH for uptake studies of various bile acids and the loop diuretic bumetanide. The uptake of the conjugated bile acid taurocholate, of the non-conjugated bile acid cholate and of the organic anion bumetanide was measured in the transfected as well as in the non-transfected parental cell line. These organic anions represent the main substrates of the known transport systems for organic anions in the rat liver. The results show that the microsomal epoxide hydrolase is unable to transport taurocholate, cholate or bumetanide. Furthermore, Western-blot analysis revealed the expression of mEH in hepatoma tumor cell lines, which show no transport activity for these organic anions. These results show that it is unlikely that mEH can mediate the transport of these substrates.
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PMID:Relationship between the microsomal epoxide hydrolase and the hepatocellular transport of bile acids and xenobiotics. 748 59


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