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)

The author reviews the problem of the pattern of lipid peroxidation in cancer cells with special reference to a comparison between normal liver cells and hepatomas both transplanted and induced by diethylnitrosamine. It is stated that the loss of lipid peroxidation is proportional to the degree of de-differentiation of hepatoma cells. During carcinogenesis, however, the loss is already evident at the stage of preneoplastic nodules. A common feature of all tumors, independently of the extent of the loss of peroxidation in basal conditions, is the lack of further stimulation by ADP/iron or by ascorbate/iron. As regards the reasons for the decline in lipid peroxidation, they are certainly not unique. An important cause is the low activity of the enzymes of the monooxygenase microsomal chain. Another very important one is the change in lipid composition of membranes, with a marked decrease in polyunsaturated fatty acids, which are the main substrate for lipid peroxidation. It has been shown that enrichment of membranes of hepatomas with arachidonic acid results in restoration of stimulation of peroxidation by ascorbate/iron, but not with ADP/iron. The last type of stimulation mostly reflects the behaviour of the monooxygenase chain, whereas ascorbate/iron-induced stimulation does not require the presence of an efficient cytochrome P450-chain. Another cause for decreased lipid peroxidation in tumors is the increased rigidity of membranes, due to the large increase in cholesterol content: this prevents to some extent the influx of oxygen inside the membranes. Yet another cause is the presence of increased amounts of antioxidants in both cytosol and membranes. The main toxic product of lipid peroxidation, 4-hydroxynonenal, has been found to elicit several actions at extremely low concentrations. In fact, 4-hydroxynonenal stimulates chemotaxis of polymorphonuclear leukocytes, stimulates plasma membrane adenylate cyclase, stimulates plasma membrane guanylate cyclase, and stimulates phospholipase C. The last three enzymes involve the action of G-proteins. The effect of the aldehyde is present at less than micromolar concentrations, which may occur inside the cells in certain conditions. Moreover, at concentrations from 10(-6) to 10(-7) M, the aldehyde is able to block oncogene c-myc expression in the human erythroleukemic K562 cell line, which at the same time becomes able to express the gamma-globin gene. These facts are discussed with reference to a possible biological meaning of the loss of lipid peroxidation in tumors.
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PMID:Lipid peroxidation and cancer: a critical reconsideration. 251 Mar 83

To elucidate the role of oncogene expression in hepatocarcinogenesis, we examined the expression of 4 cellular oncogenes (c-myc, c-fos, Ha-ras and c-erbA) in liver tissues induced by chemical agents. Four groups of male Sprague-Dawley rats were examined in the present study. Rats of the first and second groups were given a single intraperitoneal injection of diethylnitrosamine (DEN), 200 mg/kg body weight. Two weeks later, these rats were divided into two groups; the DEN-C group received no further medication, whereas the DEN-DES group was given diethylstilbestrol (DES), 0.5 mg/day, for 12 months. The DEN group was given DEN, 100 ppm, in drinking water for five months as the hepatocellular carcinoma (HCC) group. The DES group was given DES, 0.5 mg/day, from the start for 8 months. Rats of the DEN-DES and DEN groups developed grossly visible hepatic tumors. Significantly higher levels of c-myc gene expression were observed in tissues of HCC of the DEN group and in neoplastic nodules of the DEN-DES groups than in the DES and DEN-C group. The increase of c-myc mRNA seemed to begin after 1 month of treatment and became significant at 4 months in the DEN-DES group. On the other hand, no significant differences in mRNA levels of c-fos, Ha-ras and c-erbA were observed among these four groups. Although the significance of increased c-myc gene expression in neoplastic liver is still not known, it is conceivable that the persistent elevation of c-myc gene expression in the DEN and DEN-DES groups might contribute to the development of rat chemical hepatotumorigenesis.
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PMID:Expression of oncogenes during rat chemical hepatotumorigenesis promoted by estrogen. 251 Nov 80

It is now evident that development of hepatocellular carcinoma (HCC) in human is associated with a long series of cellular and tissue changes that precede the ultimate development of the cancer. During recent years, enormous progress in molecular research on HCC has been made, particularly in the area of integration of HBV DNA to host cell and oncogene association with carcinogenicity. A high ratio of HCCs from patients in endemic area has integrated HBV DNA in cellular DNA and in some cases, chromosomal translocations associated with HBV integration were observed, suggesting that the integration or the results thereof are connected with cancer development. Employing a DNA-mediated transfection assay using NIH3T3 mouse fibroblasts with high molecular weight DNA, we detected three cellular transforming genes (lca, N-ras, hst) in primary human HCC. However, little is known as to the linkage between the activation of these genes and liver carcinogenesis. In most human primary HCC tissues, at least two oncogenes, c-myc and N-ras are overexpressed, while in some cases other oncogenes c-fos or lca are overexpressed. It is likely that multiple c-oncogens are important in HCC, but specific transcripts for the malignancy of HCC were not detected. At present, we could not find any relationship between the expression of c-oncogenes and integration of HBV, serological markers or the degree of differentiation. Of the experimental animals most frequently used for studies of liver cancer, the rat is best understood and mimics closely many of the lesions in humans. It is of interest to consider that the identification and elucidation of the mechanisms underlying carcinogenic processes in the rat may offer testable hypotheses for steps in the human.
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PMID:[Molecular aspects of human hepatocellular carcinoma]. 253 67

Hepatocellular carcinoma is a very common tumor worldwide and is associated with high mortality rates. Evidence that the development of hepatocellular carcinoma is related to chronic HBV infection has accumulated from epidemiologic studies, information from animal and cell culture models, and molecular biologic evidence that HBV components can be found within hepatocellular carcinoma tissue. Integration of HBV DNA within host liver cell chromosomes may be a crucial step in the development of hepatocellular carcinoma. Integration is associated with disruption of both structure and function of DNA at the site of integration. The study of individual examples of HBV DNA integration in hepatocellular carcinoma tissue illustrates possible mechanisms of hepatocarcinogenesis by HBV. In many cases, activation of various growth factors has been found in association with HBV DNA integration including IGF II, oncogenes such as c-myc, and novel growth factors such as the retinoic acid receptor. A clearer understanding of the mechanisms involved may allow for possible therapeutic interventions in the future, or perhaps even the prevention of hepatocellular carcinoma.
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PMID:Hepatocellular carcinoma: molecular biology of its growth and relationship to hepatitis B virus infection. 254 6

In order to investigate how chronic liver diseases, including liver cirrhosis and chronic hepatitis, are associate with hepatocarcinogenesis in terms of gene alteration, the methylation states of the c-myc and c-Ki-ras genes were examined in 34 liver tissues from patients with chronic liver disease without hepatocellular carcinoma (HCC), 34 non-tumor liver tissues from patients with HCC, 18 HCC tissues and 31 control liver tissues. The methylation states were analyzed by the Southern hybridization method using the restriction endonuclease isoschizomers MspI and HpaII. The CCGG sites at the second exon of the c-myc gene tended to be more extensively hypomethylated both in chronic liver disease and in non-tumor tissues than in control livers. Whereas the CCGG sites of the c-Ki-ras, and the third exon of the c-myc gene tended to be hypomethylated only in HCC tissues in comparison with other tissue groups. These results suggest that chronic liver disease may be situated between normal liver and HCC based on the state of DNA methylation and associated with the development of HCC through hypomethylation of the c-myc and/or c-Ki-ras gene.
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PMID:Hypomethylation of the c-myc oncogene in liver cirrhosis and chronic hepatitis. 254 2

The precise molecular events involved in growth factor-mediated cell proliferation in eukaryotes have not been entirely elucidated. Identification and characterization of the itnracellular molecular signaling systems linking growth factor function with nuclear events would provide insight into the regulatory mechanisms governing eukaryotic cell growth. In this report, we demonstrate that serum-deprived rat H4IIE hepatoma cells enter a quiescent state and remain viable in the absence of serum for up to 7 days. These cells can be stimulated to transverse the cell cycle and proliferate in response to epidermal growth factor (EGF) after a 24-h lag phase. We were able to completely mimic the mitogenic effects of EGF with 8-p-chlorophenylthio-cAMP (8-CPT-cAMP) but only partially with N6-(Bu)2-cAMP. EGF and 8-CPT-cAMP together induce a synergistic increase in H4IIE hepatoma cell proliferation. The calcium ionophore A23187 and the phorbol ester, 4 beta-phorbol 12-myristate 13-acetate had little effect on H4IIE cell proliferation. EGF treatment led to a rapid and transient increase of intracellular cAMP concentration. Both 8-CPT-cAMP and EGF were also equally effective in causing a rapid and transient induction of c-fos and c-myc protooncogene mRNA levels when added to growth-arrested H4IIE cells while A23187, N-(Bu)2-cAMP, and 4 beta-phorbol 12-myristate 13-acetate were significantly less effective. Both EGF and 8-CPT-cAMP affect protooncogene expression in growth-arrested rat H4IIE hepatoma cells primarily at the transcriptional level. Localization and semi-quantification of nuclear pp55c-fos and 63 (kilodalton)-myc protooncoproteins by immunocolloidal gold electron microscopy revealed that EGF and/or 8-CPT-cAMP treatment of quiescent H4IIE hepatoma cells led to a marked and rapid nuclear accumulation of these proteins in discrete nuclear substructures. Cummulatively, these results suggest that cAMP participates in the intracellular signaling system mediating the mitogenic and protooncogene inducing effects of EGF on growth-arrested rat H4IIE hepatoma cells.
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PMID:Epidermal growth factor induction of cellular proliferation and protooncogene expression in growth-arrested rat H4IIE hepatoma cells: role of cyclic adenosine monophosphate. 254 62

It has been a matter of controversy as to whether c-myc gene expression is activated in human hepatocellular carcinoma (HCC). We observed that the c-myc mRNA level in HCC was similar to that of the adjacent non-cancerous portion, as determined in freshly obtained specimens after a partial liver resection. However, the c-myc transcript was at a low level in non-cancerous tissue which was biopsied prior to surgery, whereas it was still at a high level in HCC obtained without performing hepatectomy. These results suggest that the high transcript level observed in the non-cancerous tissue from the excised liver relates to liver resection itself, and that the c-myc gene expression is enhanced in the HCC.
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PMID:Elevation of c-myc transcript level in human liver during surgical resection of hepatocellular carcinoma: possible cause for underestimation of c-myc gene activation in the tumor. 254 93

In rats maintained on a carcinogenic diet (choline deficient containing 0.1% ethionine), the levels of c-myc and p53 mRNAs increased by 4 wk after animals were placed on the diet. Cell isolation studies showed that the change in c-myc takes place in oval cells, while p53 increases predominantly in oval cells but also in hepatocytes. To determine whether this increase is a consequence of cell proliferation or is associated with transformation, we have developed an in vitro model of hepatocarcinogenesis using epithelial cells isolated from the livers of rats fed the carcinogenic diet. When maintained in vitro with infrequent subculture, this cell line (LE/6) undergoes spontaneous transformation. Inoculation s.c. of the transformed cells into nude mice yields tumors histologically identified as hepatocellular carcinoma. We have used these cell lines to compare the cell cycle expression of c-myc and p53 mRNAs in untransformed, partially transformed, and tumorigenic LE/6 cells. We find that the expression of both genes is under cell cycle control in untransformed and partially transformed cells. However, complete transformation of this cell line is associated with constitutive expression of myc but not p53 transcripts. On the basis of this work we suggest that constitutive expression of c-myc may be a late event in hepatocarcinogenesis.
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PMID:Production of hepatocellular carcinoma by oval cells: cell cycle expression of c-myc and p53 at different stages of oval cell transformation. 264 88

The expression of c-myc protein was studied in primary cultures of rat hepatocytes and rat liver-derived epithelial cell lines. The levels of the protein were determined by flow cytometry using a monoclonal antibody to the c-myc protein. Freshly isolated hepatocytes from normal adult male Fischer F344 rats had low but detectable levels of the protein which were similar in the different ploidies. Higher levels were detected in immortalised but untransformed rat liver cell lines, and increased expression was observed during passage through the cell cycle. Following in vitro transformation of one of the immortalised epithelial cell lines by ras genes, similar levels of c-myc expression to those present in the untransformed cells was maintained. Transformation by activated aflatoxin B1 (AFB1) resulted in lower levels of expression. The cell cycle related level of expression was also seen in the transformed cells. Similar results to those observed in the in vitro ras transfected liver-derived cell lines were obtained from in vivo AFB1-induced rat hepatoma cell lines. These results demonstrate that continuously dividing rat liver-derived cell lines have higher levels of expression of c-myc protein than non-dividing, freshly isolated hepatocytes, and that there is no further elevation in the levels observed when these cell lines are transformed. In some cases decreased levels can result from malignant transformation.
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PMID:The expression of c-myc related to the proliferation and transformation of rat liver-derived epithelial cells. 266 Aug 95

c-myc expression, amplification, and rearrangement were studied in neoplastic hepatic nodules of rats after diethylnitrosamine treatment, in hepatocellular carcinomas induced by N-methyl-N-nitrosourea, and in tumorigenic liver cell lines derived from rat hepatocytes transformed by diethylnitrosamine in vivo. Steady-state levels of c-myc transcripts, as measured by Northern blot hybridization, were slightly increased in neoplastic hepatic nodules and showed high levels in some hepatocellular carcinomas and some tumorigenic liver cell lines. DNA of the samples was analyzed after restriction nuclease treatment by Southern blot hybridization, using different probes specific for the three exons of the c-myc gene. The results suggest rearrangements of the complete gene and/or amplification in some cases. Rearrangements include the 5'-part of the first exon and a stretch upstream c-myc supposed to contain control elements of c-myc expression. Aberrations of this kind are most pronounced in advanced metastasizing hepatocellular carcinomas and highly tumorigenic, metastasizing liver cell lines. Heterogenicity of genomic alterations and c-myc transcript levels were found among different samples of the same hepatocellular carcinoma indicating subclonal diversification.
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PMID:Amplification, rearrangements, and enhanced expression of c-myc in chemically induced rat liver tumors in vivo and in vitro. 268

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