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)

Dedifferentiated rat hepatoma variant cells of clone Faof1 fail to express most of the liver-specific functions characteristic of its line or origin, H4IIEC3. When Faof1 cells are cultivated for 48 hr in the form of aggregates two cell types can be recovered from monolayer cultures established from the aggregates: the majority of cells are similar to the Faof1 parental line, but a new cell type (designated dag) that adheres only weakly to the substrate is present at a frequency of 2--12 X 10(-2). Eight dag populations and eight clones are characterized as being different from Faof1 cells by the production of serum albumin, aldolase B and in some cases activity of alcohol dehydrogenase and alanine aminotransferase. No dag cells are recovered after 18 or 24 hours of aggregation, but after 48 or 96 hrs 1--5% of the cells give rise to clones of dag cells. During aggregation cells are committed to become dag cells but their new phenotype is expressed only after 5--12 days. The fraction of dag cells in colonies that grow out from aggregates suggests that dag transformation is not a clonal event. These experiments demonstrate that a transitory change in the culture conditions of Faof1 cells can lead to a heritable modification in phenotypic expression. Since dag cells fail to express the liver-specific gluconeogenic enzymes that permit cells to grow in glucose-free medium, it is possible to select from dag populations revertants in which expression of these activities is restored. The frequency of appearance of such dag revertants is not increased by the action of EMS.
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PMID:Dedifferentiated variants of a rat hepatoma: partial reversion induced by cell aggregation. 744 71

Hepatocytes cultured for extended periods of time lose the ability to express alcohol dehydrogenase and thus, the ability to efficiently oxidize ethanol. Therefore, it has been difficult to investigate the effects of chronic ethanol oxidation by hepatocytes in vitro. To circumvent this problem, we have inserted the coding region of an exogenous alcohol dehydrogenase gene into an hepatic cell line. Using the human hepatocellular carcinoma cell line, Hep G2, we have constructed an hepatic cell line that stably expresses alcohol dehydrogenase. These recombinant cells, termed HAD 73.1 cells, express approximately 40% of the alcohol dehydrogenase activity of freshly isolated rat hepatocytes. When the ethanol metabolizing ability of these cells was directly measured, the results indicated that not only were these cells able to metabolize ethanol at approximately 70% of the rate of freshly isolated rat hepatocytes but acetaldehyde concentrations of up to 50 microM were detected in the medium. Furthermore, the level of acetaldehyde produced during ethanol oxidation was augmented by cyanamide, an inhibitor of acetaldehyde oxidation, while the ability of these cells to metabolize ethanol was inhibited by pyrazole, an inhibitor of alcohol dehydrogenase. These results suggest that this in vitro system will be a valuable tool enabling detailed biochemical studies exploring the effects of chronic ethanol oxidation on the liver and the mechanisms of alcohol-induced hepatic cell injury.
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PMID:Establishment of a recombinant hepatic cell line stably expressing alcohol dehydrogenase. 764 56

The mouse alcohol dehydrogenase gene Adh-1 contains an unusually long alternating purine-pyrimidine sequence within its first intron. This alternating sequence differs in length between strains that differ in the extent of Adh-1 expression, and it has been suggested that it plays a role in gene expression. We demonstrate that this alternating sequence can form Z-DNA in vitro. The alternating sequence can act as a positive regulatory element in transient transfection assays in hepatoma cell lines, but not in CV-1 (monkey kidney) cells, suggesting that it can act as a tissue-specific regulatory element. Nuclear run-on experiments showed that the differential expression of Adh-1 from high- and low-activity strains is, however, controlled at the post-transcription level.
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PMID:Structure and function of a long alternating purine-pyrimidine sequence in the mouse alcohol dehydrogenase Adh-1 gene. 784 Jun 44

The Long-Evans Cinnamon (LEC) rat is a mutant strain established from Long-Evans rats. LEC rats display hereditary hepatitis and spontaneous hepatocellular carcinoma (HCC). We first tried to examine effects of ethanol consumption on the development of HCC, and fed a Lieber's liquid diet containing 5% ethanol to LEC rats. However the rats died within 2 weeks because of acute alcohol intoxication. In LEC rats, the concentration of ethanol and acetaldehyde in blood was significantly higher, and liver alcohol dehydrogenase activity was slightly lower and acetaldehyde dehydrogenase activities were remarkably suppressed compared to those of Wistar rats. These results suggest that LEC rats have hereditary deficiencies of ethanol and acetaldehyde metabolizing enzymes.
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PMID:Abnormal ethanol metabolism in Long-Evans Cinnamon rats, a mutant strain developing spontaneous hepatoma. 800 22

It is well established that many types of tumor cells have reduced lipid peroxidation capacity compared to their normal counterparts. Changes in the activity of enzymes metabolizing aldehydes produced by lipid peroxidation have also been reported in a variety of tumor cells. We have investigated the relationship between changes in lipid peroxidation and changes in aldehyde-metabolizing enzymes in normal hepatocytes and two representative rat hepatoma cell lines, McA-RH-7777 and JM2. Compared to hepatocytes, both 7777 and JM2 cells have significantly lower basal and prooxidant-induced levels of lipid peroxidation than normal hepatocytes. Using 4-hydroxynonenal (4-HNE) as substrate, both cell lines also have significantly reduced activities of alcohol dehydrogenase (ADH) and glutathione S-transferase (GST) compared to hepatocytes. JM2 cells have significantly increased aldehyde dehydrogenase (ALDH) and aldehyde reductase (ALRD) activities with 4-HNE. In 7777 cells the ALDH and ALRD activities are not different from hepatocytes. The changes in enzyme activity are inversely correlated with the sensitivity of cells to 4-HNE. JM2 cells, with increased ALDH and ALRD and decreased ADH and GST, are much more resistant to the toxic effects of 4-HNE than 7777 cells. Normal hepatocytes and JM2 cells are approximately equally resistant to 4-HNE even though hepatocytes rely primarily on GST-mediated aldehyde conjugation to metabolize 4-HNE. Coupled with previous results from our laboratories, the overall increased sensitivity of certain hepatoma cells to lipid aldehydes appears due to decreased ability of these hepatoma cells to remove toxic products of lipid peroxidation. Moreover, hepatoma cells with increased levels of aldehyde dehydrogenase and aldehyde reductase appear most like hepatocytes in their ability to metabolize lipid aldehydes.
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PMID:Role of aldehyde metabolizing enzymes in mediating effects of aldehyde products of lipid peroxidation in liver cells. 803 12

The human alcohol dehydrogenase gene ADH2 is expressed at high levels in liver, at lower levels in kidney and several other tissues, and is not expressed in other tissues such as spleen. This pattern of expression suggests a complex regulatory region that responds to a variety of transcription factors in different cellular contexts. Seven cis-acting sequences in the proximal 271 bp of the ADH2 promoter were mapped. The occupancy of these sites differed markedly among extracts from liver, kidney, spleen, H4IIE-C3 cells, HeLa cells, and CV-1 cells. These differences in occupancy were accompanied by differences in gene expression in the three cell lines. The ADH2 promoter directed substantial CAT expression in H4IIE-C3 cells (rat hepatoma) and in HeLa cells, but only minimal expression in CV-1 cells (monkey kidney fibroblasts). The three cell lines differed in the effects of deletions within the promoter. An ADH2 promoter that contained both the USF/MLTF site and the G3T site gave four- to eight-fold higher expression in both H4IIE-C3 and HeLa cells than a smaller promoter that lacked these sites; in contrast, these sequences did not significantly stimulate transcription in CV-1 cells. A CTF/NF-I-related site acted as a negative element in all three cell lines. Coexpression of C/EBP alpha altered the cell specificity. The ADH2 promoter was moderately stimulated (two-fold) by coexpression of C/EBP alpha in H4IIE-C3 cells, but markedly stimulated in HeLa cells and in CV-1 cells (11- and 20-fold, respectively). These results demonstrate the differential importance of cis-acting sequences and of specific transcription factors in different cells, which allows regulated expression of ADH2 in multiple tissues.
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PMID:Tissue-specific differences in the expression of the human ADH2 alcohol dehydrogenase gene and in binding of factors to cis-acting elements in its promoter. 817 54

4-Hydroxynonenal (4-HNE), produced during the oxidative lipid breakdown of biological membranes, modulates various biochemical processes in normal liver and in hepatoma cells. It is very probable that the effects of 4-HNE are related to the quantity formed in the cells and to the cells' ability to metabolize it. Aldehyde catabolism takes place within the cells through oxidative and reductive enzymes, and through conjugation with intracellular glutathione. In this paper, the various enzymatic pathways involved in the metabolism of 4-HNE were studied in normal hepatocytes and in hepatoma cells. The hepatocyte pathway undergoes a complex variety of change during neoplastic transformation. In hepatoma cells, generally, 4-HNE metabolism was due mainly to aldehyde dehydrogenases, whereas in normal hepatocytes 4-HNE metabolism was mainly due to alcohol dehydrogenase and glutathione-S-transferase. The increase in oxidative enzymes compared to normal tissue was not the same in all types of hepatoma: in HTC hepatoma cells, the enzyme levels were considerably higher; in AH-130 hepatoma cells of Yoshida, they were lower in subcellular particles and similar in the cytosol. Indeed, consumption of externally-added 4-HNE in hepatoma cells was proportional to their content of 4-HNE metabolizing enzymes.
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PMID:Ability of different hepatoma cells to metabolize 4-hydroxynonenal. 832 85

Alcohol dehydrogenase isoenzymes were isolated from the liver of patients with hepatoma and healthy control individuals. Whereas only a single form of the enzyme was obtained in healthy control liver, two distinct forms of the enzyme were found in hepatoma liver. These two forms were named AD-I and AD-II according to their elution pattern in CM-cellulose chromatography and mobility towards the anode in polyacrylamide gel electrophoresis. Both isoenzymes resembled normal liver enzyme with respect to their molecular properties. However, the two forms had distinct kinetic properties, although AD-I had some properties similar to the normal liver enzyme. The Km values of AD-I for ethanol, n-butanol and m-nitrobenzyl alcohol were 61 microM, 90 microM and 292 microM, respectively, as against the values for AD-II which were 473 microM, 100 microM and 60 microM for the respective substrates. Pyrazole inhibited the activity of AD-II but not that of AD-I. These kinetic properties of alcohol dehydrogenase in patients with hepatoma could be of clinical importance particularly in the tropics where the disease is prevalent.
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PMID:Purification and catalytic properties of liver alcohol dehydrogenase isoenzymes in patients with hepatoma in Nigeria. 838 33

The mouse alcohol dehydrogenase gene, Adh-1, is expressed in a tissue-specific manner. We examined the promoter activity of a series of 5' deletions extending from bp -473 to -47 and demonstrated that there are positive regulatory elements between bp -229 and +54 and a negative regulatory element between bp -323 and -229. To identify the sequence of the negative regulatory element, gel retardation and DNase I footprint assays were performed using nuclear proteins from mouse liver and from a hepatoma cell line, H4IIE-C3. A specific protein-binding site covered bp -324 and -297. Within this region, we identified sites of close protein-DNA contact by methylation interference assays, located in the sequence TGGAAGTTTCAGGTT (nt -316 to -302). Site-directed mutagenesis of four protein-DNA contact sites within this sequence eliminated the specific protein-DNA binding, assayed by gel retardation, and restored expression of Adh-1 in transient transfection assays to the levels seen when the entire region containing the negative element was deleted. Thus, we have identified a negative regulatory element within the Adh-1 promoter. No homology was found between this negative element and other regulatory elements, suggesting that this is a novel negative element.
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PMID:A novel negative element in the promoter of the mouse alcohol dehydrogenase gene Adh-1. 848 90

Three human alcohol dehydrogenase genes, ADH1, ADH2, and ADH3, were formed by tandem duplications and have diverged in their tissue-specific and developmental expression. Their proximal promoters remain 80-84% identical in sequence, approximately the same degree of identity as at synonymous sites in the coding regions of these three genes. To understand the evolution of tissue specificity, gene expression must be studied in many different cells and tissues. A systematic comparison of their promoters reveals the effects of subtle sequence differences on the binding of nuclear proteins to their cis-acting elements. There are differences in the affinity with which some proteins are bound to altered sites including C/EBP sites, USF/MLTF sites, and the G3T site (which binds Sp1). There are also differences in the sites that are occupied, e.g. CTF/NFI-related sites. These sequence differences are reflected in differences in gene expression in three cell lines. In H4IIE-C3 hepatoma cells, the ADH1 promoter was more active than the ADH2 promoter, and the ADH3 promoter was nearly nonfunctional. In HeLa cells, both ADH1 and ADH2 promoters directed expression; again the ADH3 promoter was extremely weak. None of the three promoters had much activity in CV-1 cells. Coexpression of C/EBP alpha greatly stimulated expression of the ADH1 promoter in HeLa cells and in CV-1 cells, but only weakly stimulated expression in H4IIE-C3 cells. The stimulation of the ADH1 promoter by C/EBP alpha was comparable to that of ADH2, despite the weaker binding to the C/EBP sites that flank the TATA box in ADH1. The ADH3 promoter was not greatly stimulated by C/EBP alpha, despite good binding of C/EBP alpha. These results demonstrate that small differences in the cis-acting elements affect affinity of binding by transcription factors and the pattern of gene expression.
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PMID:Gene expression in a young multigene family: tissue-specific differences in the expression of the human alcohol dehydrogenase genes ADH1, ADH2, and ADH3. 863 48

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