UMLS:C0019204 - FACTA Search

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

We have examined enzyme activities and mRNA levels corresponding to aldehyde dehydrogenase-3 genes encoding cytosolic (ALDH3c) and microsomal (ALDH3m) forms. In contrast to negligible activities in the intact mouse liver, both ALDH3c and ALDH3m enzyme activities are inducible by benzo[a]pyrene and 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) in mouse hepatoma Hepa-1c1c7 cell cultures. Constitutive mRNA levels of ALDH3c are virtually absent, whereas those of ALDH3m are substantial; using Hepa-1 mutant lines, we show that both ALDH3c and ALDH3m are TCDD-inducible by an Ah receptor-dependent mechanism. Basal mRNA levels of ALDH3c, but not those of ALDH3m, are strikingly elevated in untreated mutant cells lacking a functional CYP1A1 enzyme; low ALDH3c basal mRNA levels can be restored by introduction of a functional murine CYP1A1 or human CYP1A2 enzyme into these mutant cells. These data suggest that the TCDD induction process is distinct from the CYP1A1/CYP1A2 metabolism-dependent repression of constitutive gene expression; we suggest that this latter property classifies the Aldh-3c gene, but not the Aldh-3m gene, as a member of the murine [Ah] battery.
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PMID:Negative regulation of the murine cytosolic aldehyde dehydrogenase-3 (Aldh-3c) gene by functional CYP1A1 and CYP1A2 proteins. 152 Mar 28

Ridogrel [(E)-5-[[[(3-pyridinyl)[3-(trifluoromethyl)phenyl] methylene]amino]oxy] pentanoic acid] is a potent inhibitor of the P450-dependent human platelet thromboxane A2 (TxA2) synthase. Fifty percent inhibition is already achieved at 5.0 +/- 0.37 nM. This IC50 value is close to half the P450 concentration used, i.e. 10.7 nM. Ridogrel binds to human platelet microsomal P450 as proven by the type II spectral changes induced by the addition of increasing concentrations of ridogrel to solubilized microsomes. The calculated half-maximal spectral change (SC50 value) is 3.78 +/- 1.79 nM. These results indicate that ridogrel binds stoichiometrically and suggest that inhibition of thromboxane synthesis may originate from liganding of its basic nitrogen to the haem-iron of P450 and from the attachment of the hydrophobic carboxylic side chain to or near the substrate binding place. Ridogrel is a selective inhibitor of the TxA2 synthase. At a high concentration (10 microM), ridogrel has a slight, if any, effect on the P450-mediated cholesterol synthesis in human liver and hepatoma cells and androgen synthesis from 17 alpha-hydroxy-20-dihydroprogesterone or pregnenolone in subcellular fractions from rat testes. These results indicate that ridogrel is a poor inhibitor of the P450-dependent 14 alpha-demethylase, 17 alpha-hydroxylase and 17,20-lyase. It has, up to 10 microM, no effect on the adrenal mitochondrial 11 beta-hydroxylase and cholesterol side-chain cleavage enzyme and does not inhibit aromatase activity in human placental microsomes. Ridogrel has no significant effect on the regio- and stereoselective P450-dependent oxidations of testosterone in liver microsomes from unpretreated or from 5-pregnen-3 beta-ol-20-one-16 alpha-carbonitrile-, phenobarbital- or 3-methylcholanthrene-pretreated male and female Sprague-Dawley rats. It does not interfere with the reduction of testosterone into 5 alpha-dihydrotestosterone and 5 alpha androstane 3 beta, 17 beta-diol.
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PMID:Ridogrel: a selective inhibitor of the cytochrome P450-dependent thromboxane synthesis. 154 Feb 27

Human hepatoma HEPG2 cells were infected with recombinant vaccinia virus vectors containing cDNAs encoding both known and variant rat cytochromes P450 (CYP). CYP2B1 and CYP2B2 cytochromes were equally well expressed (110-140 pmol/mg of microsomal protein) and catalyzed metabolism of 7,12-dimethylbenz[a]anthracene (DMBA). Their regioselectivity for DMBA metabolism paralleled that of the respective purified rat liver enzymes and reproduced previously reported regioselective differences between CYP2B1 and CYP2B2 [Wilson et al. (1984) Carcinogenesis 5, 1475-1483]. CYP2A1 and CYP2A2 expressed in HEPG2 microsomes exhibited nearly equal DMBA-metabolizing activities that closely matched that of purified CYP2A1. Although purified rat liver CYP2B1 was 3 times more active than purified rat liver CYP2B2, the expressed recombinant microsomal CYP2B1 (rCYP2B1) was 20 times less active than rCYP2B2, where activity matched that of the purified cytochrome. Microsomal suppression of rCYP2B1 catalytic activity was also observed for benzo[a]pyrene. Specific amino acid substitutions at equivalent positions of the completely homologous NH2-terminal halves of rCYP2B1 and rCYP2B2 changed this suppression effect. Thus, a L58----F, I114----F double mutant exhibited 3 times the normal activity for rCYP2B1 while remaining inhibitory for rCYP2B2. The single substitutions produced very different effects. The L58----F substitution prevented expression of rCYP2B1, while the I114----F substitution was inhibitory for both rCYP2B1 and rCYP2B2 (40 and 70%). A single E282----V mutation produced a stimulation of rCYP2B1 activity comparable to that of the L58----F, I114----F double substitution.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Selective suppression of the catalytic activity of cDNA-expressed cytochrome P4502B1 toward polycyclic hydrocarbons in the microsomal membrane: modification of this effect by specific amino acid substitutions. 154 25

Despite the epidemiological evidence of a correlation between ethanol abuse and hepatocellular carcinoma, some of the results of experimental and clinical studies remain controversial. Apart from inducing cirrhosis, which may be viewed as a precancerous liver lesion, ethanol may act as a cocarcinogen. Most investigations on this topic have focused on two aspects: ethanol's capacity to induce the cytochrome P-450-dependent microsomal biotransformation system and its interference with at least one DNA repair mechanism. Ethanol exposure enhances the capacity of mixed function oxidases to activate many chemical carcinogens, such as dimethylnitrosamine (DMN). On the other hand, ethanol exposure fails to influence DMN-induced liver carcinogenesis. The capacity of alcohol to inhibit DMN-demethylase activity has not been clearly demonstrated in experiments carried out with human tissue. In conclusion, both the effects of ethanol and their underlying mechanisms as regards liver carcinogenesis are open to debate. The link between ethanol abuse and hepatocellular carcinoma appears to be mediated mainly by its capacity to induce cirrhosis.
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PMID:Hepatocellular carcinoma, alcohol, and cirrhosis: facts and hypotheses. 165 Jun 91

1. The content of oxy-radical scavenging enzymes is decreased in Morris hepatomas in a fashion which is inversely related with the growth rate of the tumour. 2. Hepatoma microsomal membranes are more resistant than normal rat liver membranes to lipid peroxidation induced in vitro by organic hydroperoxides or superoxide radicals. 3. In tumour membranes the most relevant rate-limiting factor of peroxidation is the low availability of polyunsaturated fatty acids (PUFA). Besides lipids, some proteins (particularly cytochrome P-450) act as controlling factors of peroxidation. 4. Tumour microsomes are more ordered and less fluid than liver microsomes. The latter, exposed to superoxide radical attack, exhibit chemical (fatty acid composition) and physical (molecular order) properties that are similar to those of transformed cell membranes. 5. These data indicate an aberration in the oxy-radical metabolism of cancer cells, and a sequence of events is hypothesized that could drive the transformed cell towards uncontrolled proliferation.
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PMID:Oxy-radical metabolism and control of tumour growth. 177 76

6-Methyl-8-iodo-1,3,-dichlorodibenzofuran (I-MCDF) and its radiolabeled analog [125I]MCDF have been synthesized and used to investigate the mechanism of action of 1,3,6,8-substituted dibenzofurans as 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) antagonists. Like 6-methyl-1,3,8-trichlorodibenzofuran (MCDF), I-MCDF partially antagonized the induction by TCDD of microsomal aryl hydrocarbon hydroxylase (AHH) and ethoxyresorufin O-deethylase (EROD) activities in rat hepatoma H-4-II E cells and male Long-Evans rat liver. Incubation of rat liver cytosol with [125I]MCDF followed by velocity sedimentation analysis on sucrose gradients gave a specifically bound peak which sedimented at 9.6 S. This radioactive peak was displaced by coincubation with a 200-fold excess of unlabeled I-MCDF, 6-methyl-1,3,8-trichlorodibenzofuran (MCDF), 2,3,7,8-tetrachlorodibenzofuran (TCDF), and benzo [a]pyrene. Based on the velocity sedimentation results and the elution profile from a Sephacryl S-300 gel permeation column, the Stokes radius and apparent molecular weights of the cytosolic [125I]MCDF-Ah receptor complex were 6.5 nm and 259,200, respectively. In addition, the nuclear [125I]MCDF-receptor complex eluted at a salt concentration of 0.29 M KCl from a DNA-Sepharose column. Velocity sediment analysis of the nuclear [125I]MCDF-Ah receptor complex from rat hepatoma H-4-II E cells gave a specifically bound peak at 5.6 +/- 0.8 S. All of these properties were similar to those observed using [3H]TCDD as the radioligand. In addition, there were several ligand-dependent differences observed in the properties of the I-MCDF and TCDD receptor complexes; for example, the [125I]MCDF rat cytosolic receptor complex was unstable in high salt buffer and was poorly transformed into a form with increased binding affinity on DNA-Sepharose columns; Scatchard plot analysis of the saturation binding of [3H]TCDD and [125I]MCDF with rat hepatic cytosol gave KD values of 1.07 and 0.13 nM and Bmax values of 137 and 2.05 fmol/mg protein, respectively. The nuclear extract from rat hepatoma H-4-II E cells treated with I-MCDF or TCDD interacted with a dioxin-responsive element in a gel retardation assay. These results suggest that the mechanism of antagonism may be associated with competition of the antagonist receptor complex for nuclear binding sites.
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PMID:Mechanism of action of 2,3,7,8-tetrachlorodibenzo-p-dioxin antagonists: characterization of 6-[125I]methyl-8-iodo-1,3-dichlorodibenzofuran-Ah receptor complexes. 184 13

Amino acid deprivation of rat hepatoma cells induced the levels of a 612-base pair mRNA termed ASI (Shay, N. F., Nick, H. S., and Kilberg, M. S. (1990) J. Biol. Chem. 265, 17844-17848). The ASI mRNA was present at levels equal to or greater than actin in every rat tissue tested. The corresponding full-length cDNA was cloned, and the present report demonstrates that the deduced 184-residue amino acid sequence shares greater than 30% identity to a number of bacterial and chloroplast L22 ribosomal proteins, including those from Escherichia coli and Halobacterium halobium. A monospecific anti-peptide antibody was produced that upon immunochemical analysis of subcellular fractions of rat liver recognized a band in the microsomal fraction and, more specifically, reacted with a single polypeptide in the ribosomal large subunit fraction. The antibody did not react with any proteins of the mitochondrial large subunit, but did recognize a protein in human liver homogenate at the same relative mobility (23 kDa) as that observed for rat liver.
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PMID:Identification of an amino acid-regulated mRNA from rat liver as the mammalian equivalent of bacterial ribosomal protein L22. 189 96

Steroid hydroxylation specificities were determined for 11 forms of human cytochrome P450, representing four gene families and eight subfamilies, that were synthesized in human hepatoma Hep G2 cells by means of cDNA-directed expression using vaccinia virus. Microsomes isolated from the P450-expressing Hep G2 cells were isolated and then assayed for their regioselectivity of hydroxylation toward testosterone, androstenedione, and progesterone. Four of the eleven P450s exhibited high steroid hydroxylase activity (150-900 pmol hydroxysteroid/min/mg Hep G2 microsomal protein), one was moderately active (30-50 pmol/min/mg) and six were inactive. In contrast, 10 of the P450s effectively catalyzed O-deethylation of 7-ethoxycoumarin, a model drug substrate, while only one (P450 2A6) catalyzed significant coumarin 7-hydroxylation. Human P450 4B1, which is expressed in lung but not liver, catalyzed the 6 beta-hydroxylation of all three steroids at similar rates and with only minor formation of other hydroxylated products. Three members of human P450 family 3A, which are expressed in liver and other tissues, also catalyzed steroid 6 beta-hydroxylation as their major activity but, additionally, formed several minor products that include 2 beta-hydroxy and 15 beta-hydroxy derivatives in the case of testosterone. These patterns are similar to those exhibited by rat family 3A P450s. Although several rodent P450s belonging to subfamilies 2A, 2B, 2C, 2D are active steroid hydroxylases, four of five human P450s belonging to these subfamilies exhibited very low activity or were inactive, as were the human 1A and 2E P450s examined in the present study. These studies demonstrate that individual human cytochrome P450 enzymes can hydroxylate endogenous steroid hormones with a high degree of stereospecificity and regioselectivity, and that some, but not all of the human cytochromes exhibit metabolite profiles similar to their rodent counterparts.
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PMID:Steroid hormone hydroxylase specificities of eleven cDNA-expressed human cytochrome P450s. 189 86

Monoclonal antibodies (mAbs) against the soluble form (S-COMT) of catechol-O-methyltransferase (COMT, EC 2.1.1.6) were produced using a purified preparation of the enzyme from pig liver as antigen. The selected monoclonal antibodies recognized the enzyme with different capacities. One of them (Co60-1B/7) showed a significant cross reaction with S-COMT from rat and human liver. A protein band of 23 kDa was recognized by the mAbs on Western blots of the soluble fraction of pig liver. The mAbs were also able to recognize the membrane-bound form of the enzyme, which was found to be mainly localized in the microsomal fraction of pig and rat liver as well as of the human hepatoma cell line Hep G2. The protein bands detected in microsomes had a molecular mass of 26 kDa in pig and rat liver and displayed a slightly higher molecular mass (29 kDa) in the Hep G2 cell line. A single step method for the immunoaffinity purification of pig liver S-COMT was developed by using a Sepharose 4B column to which the mAb Co54-5F/8 was covalently coupled. Acid elution conditions were optimized to obtain the enzyme in active form with a good yield. SDS-PAGE analysis of the purified preparation revealed a single protein band with a molecular mass of 23 kDa with 154-fold enrichment in enzyme activity over the starting material. Since the N-terminus was blocked, purified enzyme preparations were cleaved with trypsin. Two fragments of 22 and 33 amino acids in length could be sequenced by Edman degradation.
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PMID:Immunoaffinity purification and partial amino acid sequence analysis of catechol-O-methyltransferase from pig liver. 193 84

Tamoxifen (TXF), a triphenylethylene antiestrogen, is the major therapeutic agent for breast cancer. In rare cases, TXF treatment appears to increase incidence of endometrial cancer. Also in rats, TXF was found to induce hepatocellular carcinoma. Previous studies suggested that metabolism of TXF may contribute to its antiestrogenic and anticancer activity. The current study demonstrates a novel route of TXF metabolism. TXF is metabolized by rat and human liver microsomes into a reactive intermediate (txf*) which binds irreversibly to microsomal proteins. The binding requires NADPH and O2 and is inhibited by CO, inhibitors of P-450, and antibodies to rat NADPH-P450 reductase, indicating catalysis by P450. Phenobarbital treatment of rats markedly increases binding, suggesting the involvement of induced P450s. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis of proteins from incubation of [14C] TXF with phenobarbital-treated microsomes exhibits a major radiolabeled zone which corresponds to a molecular weight of approximately 54,000, suggesting binding to a P-450. Cysteine and glutathione inhibited the binding of TXF without significantly affecting P-450-mediated metabolism of TXF, possibly by reacting with txf* or by competing for the same binding sites. Exposure of phenobarbital-treated microsomes and control-microsomes to 50 degrees C for 90 s, which inactivates the flavin-containing monooxygenase (FMO), diminished binding and pH 8.6 enhanced binding. Also, alternate FMO substrates inhibited binding. These findings indicate that P-450 and possibly FMO catalyze the reactions leading to the formation of txf*. However, incubations with single-labeled and dual-radiolabeled tamoxifen or with [14C]TXF-N-oxide demonstrated that monodesmethyl-TXF and TXF-N-oxide, the principal P-450 and FMO-mediated metabolites, respectively, are not on the major route of txf* formation, indicating that txf* could not be an aldehyde derived from tamoxifen nitrone. Thus, though the structure of txf* was not characterized, certain possibilities were excluded. Speculations on the structure of txf* and on its possible pharmacological and toxicological activity are presented.
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PMID:Cytochrome P-450-mediated activation and irreversible binding of the antiestrogen tamoxifen to proteins in rat and human liver: possible involvement of flavin-containing monooxygenases in tamoxifen activation. 193 68

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