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)

With DNA-mRNA hybridization in situ technique, the expression of five oncogenes, c-N-ras, c-K-ras, c-H-ras, c-myc and c-fos, was observed in two cases of human hepatocellular carcinoma. The expression of c-N-ras, c-fos was greatly enhanced in tumor tissues of the two cases, and about 25%-50% of the tumor cells showed positive expression. The other three oncogenes namely c-K-ras, c-H-ras and c-myc, were not detected in these two carcinomas or the non-cancerous liver tissue adjacent to the carcinomas. It is surmised that c-N-ras and c-fos may play coordinative role in maintaining the malignant phenotype of human primary hepatocellular carcinoma.
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PMID:[Expression of cellular oncogenes in human primary liver cell carcinoma]. 216 75

Modulation of c-myc gene expression by extracellular stimuli in H4IIE rat hepatoma cells was investigated by Northern blot analysis. Treatment of these cells with phorbol 12-O-tetradecanoate 13-acetate (TPA), insulin and concanavalin A (Con A) resulted in transient accumulation of c-myc transcripts within 2 hours. The induction of c-myc mRNA was dose dependent with similar responses for all three agents. The maximally induced c-myc mRNA levels varied from 5- to 15-fold of the control. Treatment with cycloheximide (10 micrograms/ml) and H7, a protein kinase C inhibitor (20 microM), inhibited this induction, suggesting that c-myc induction by these agents requires protein synthesis and protein kinase C activation.
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PMID:Modulation of c-myc gene expression by extracellular stimuli in rat hepatoma cells. 220 Sep 3

The recent finding of c-myc activation by insertion of woodchuck hepatitis virus DNA in two independent hepatocellular carcinoma has given support to the hypothesis that integration of hepatitis B viruses into the host genome, observed in most human and woodchuck liver tumours, might contribute to oncogenesis. We report here high frequency of woodchuck hepatitis virus DNA integrations in two newly identified N-myc genes: N-myc1, the homologue of known mammalian N-myc genes, and N-myc2, an intronless 'complementary DNA gene' or 'retroposon' that has retained extensive coding and transforming homology with N-myc. N-myc2 is totally silent in normal liver, but is overexpressed without genetic rearrangements in most liver tumours. Moreover, viral integrations occur within either N-myc1 or N-myc2 in about 20% of the tumours, giving rise to chimaeric messenger RNAs in which the 3' untranslated region of N-myc was replaced by woodchuck hepatitis virus sequences encompassing the viral enhancer. Insertion sites were clustered in a short sequence of the third exon that coincides with a retroviral integration hotspot within the murine N-myc gene, recently described in T-cell lymphomas induced by murine leukaemia virus. Thus, comparable mechanisms, leading to deregulated expression of N-myc genes, may operate in the development of tumours induced either by hepatitis virus or by nonacute retroviruses in rodents. Activation of myc genes by insertion of hepadnavirus DNA now emerges as a common event in the genesis of woodchuck hepatocellular carcinoma.
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PMID:Frequent activation of N-myc genes by hepadnavirus insertion in woodchuck liver tumours. 216 90

The effects of lycobetaine (LBT) on DNA single strand break and chromatin conformation were examined by in-situ nick translation method. It was found that LBT did not cause DNA single strand break. After 2-h incubation of murine hepatoma cells with 1-50 micrograms/ml LBT in vitro, the chromatin transcription activity was inhibited gradually. This effect was time- and dose-dependent. Actinomycin D produced a similar effect; 10-hydroxycamptothecin not only caused DNA single strand break, but also altered chromatin conformation; homoharringtonine had no marked influence on either. By molecular hybridization technique, it was found that the effect of LBT on individual genes was somewhat different. After 2-h incubation of the cells with LBT, the sensitivities of c-myc, N-ras, and beta 2-microglobulin genes to DNase I were decreased from 75 +/- 6, 66 +/- 4, 70 +/- 8% to 28 +/- 8, 25 +/- 5, 28 +/- 7%, respectively, while that of c-myb and beta-globin genes (8 + 6%, 6 + 5%) did not change obviously.
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PMID:Effects of lycobetaine on chromatin structure and activity of murine hepatoma cells. 228 45

The level of c-myc transcript was examined in liver samples from seven hepatoma patients. Transcripts were detected in all the normal liver parts examined; in contrast, in two hepatoma parts, there was a dramatic reduction in c-myc transcripts. The restriction enzyme pattern of c-myc gene appeared the same among samples. The data suggest that c-myc gene expression might not be required for the maintenance of the tumor state in human liver carcinogenesis.
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PMID:Expression of c-myc gene in human hepatoma. 241 25

Transfection assay of NIH 3T3 cells was performed with DNAs isolated from ten human PHC (primary hepatic cancer) specimens and a hepatoma 7402 cell line. Positive results were obtained in 7402 and in six out of ten PHC DNAs. Human N-ras gene was identified in transfectants from 7402 DNA and transformed cells from three PHC DNA samples, which had passed more than two cycles of transfection. The expression of N-ras was also remarkably enhanced in six out of nine poly(A)+RNA samples isolated from PHC tissues. P21 synthesis was elevated in 7402 cells as well as in transfectants derived from 7402 cells and PHC DNA. In analysis of PHC DNA, rearrangement and amplification of N-ras gene was observed in two PHC samples. The discrepancy of results of the transfection assay and mRNA expression was discussed. Furthermore, c-myc was also highly expressed in most PHC tissues. It implied that the cooperating activity of N-ras and c-myc might be responsible for the malignant phenotypic alteration in some or most cases in human primary liver cancer.
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PMID:Oncogenes in human primary hepatic cancer. 242 30

In order to characterize the genes overexpressed in an hepatoma cell line, the HTC cells, and in diethylnitrosamine induced solid hepatomas, we constructed a complementary DNA library from HTC cells and performed differential screening with probes from HTC cells, from malignant nodules obtained 70 weeks after the carcinogen treatment, and from hepatocytes from normal rat liver. Eight clones corresponding to messenger RNAs (mRNAs) much more expressed in hepatomas than in hepatocytes from normal liver were isolated. Three, clones pHT 71, pHT 13, and pHT 26, were further analyzed by the study of their corresponding transcripts in hepatocytes from regenerating liver and in the hepatocytes from the nontumorous parts of the liver. Clone pHT 71 corresponds to a single 2.3-kilobase mRNA which is present in high levels in carcinoma nodules in hepatoma cell lines, in the nontumorous parts of the liver, and in hepatocytes isolated from regenerating liver 30 h after partial hepatectomy. Clone pHT 13 hybridizes with three distinct transcripts 3.8, 2.6, and 1.6 kilobases long. High levels of the 3.8- and 1.6-kilobase mRNAs are present in carcinoma nodules, in hepatoma cell lines, and in the nontumorous parts of the liver. However, the levels of these RNAs are similar in hepatocytes from regenerating liver and in hepatocytes obtained from normal rat liver. Clone pHT 26 corresponds to a 0.6-kilobase mRNA which exists at a high level only in cancer nodules and in hepatoma cell lines. We were unable to observe any cross-hybridization between these clones and the oncogenes which have been found to be expressed in hepatomas (c-fos, c-Ha-ras, c-Ki-ras, N-ras, and c-myc). The mRNAs corresponding to the three clones have not been detected in various tissues from normal adult rats. Our study shows that a high level of these mRNAs might be associated with rat liver carcinogenesis.
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PMID:Isolation and characterization of complementary DNA clones for genes overexpressed in chemically induced rat hepatomas. 242 72

The expression of a number of proto-oncogenes (myc, erb B, Ha-ras, bas, rel, mos, sis, myb, ki-ras, fms, src and fos) was studied in developing rat liver. Northern blot hybridization shows that cellular counterpart of erb B, Ha-ras, and fos oncogenes were in an early stage of liver development, and the expressions of these proto-oncogenes gradually decreased as the liver developed, while c-myc transcript was found only in the rat fetal liver. The transcripts of these oncogenes were found in high level in Morris hepatoma 7777. Bas proto-oncogene was found in high expression at early stages of rat liver development but was not in hepatoma 7777. The expression of other proto-oncogenes studied (src, fm, rel, mos, sis, myb and ki-ras) did not change significantly during liver development and was almost the same in hepatoma and normal adult liver. Southern blot analysis demonstrates that gene amplification and apparent gene rearrangement were not responsible for the change in expression of erb B, Ha-ras, myc and fos proto-oncogenes. Our study gives further evidence that erb B, myc, Ha-ras and fos proto-oncogenes are involved in the control of cell growth and in the process of rat hepatocarcinogenesis.
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PMID:Differential expression of cellular oncogenes during rat liver development. 245 53

The development of chemically induced hepatocellular carcinoma in the rat proceeds through a series of premalignant changes that may ultimately progress to a primary malignant tumor. Using the selection technique based on diminished binding of preneoplastic hepatocytes to tissue culture plates precoated with asialofetuin, we have isolated poly(A+)RNA from early preneoplastic foci as well as preneoplastic persistent nodules and primary hepatocellular carcinoma induced by the Solt-Farber protocol in the Fischer rat. The steady-state poly(A+)RNA levels of genes traditionally associated with growth, differentiation and/or transformation were then determined to address the question of their temporal expression in the multistep nature of cancer development. Ornithine decarboxylase- and P53-specific transcripts did not significantly change in preneoplastic foci but were increased in later-stage preneoplastic nodules and hepatocellular carcinoma. Albumin-specific transcripts were decreased in all hepatocellular carcinoma but there was no consistent coordinated increase in alpha-fetoprotein-specific transcripts. c-myc and raf transcripts increased at the very early preneoplastic foci stage and continued to increase throughout the neoplastic process. No L-myc or N-myc transcripts could be detected in any RNA sample. c-Ha-ras-specific transcripts were essentially unaltered in all RNA samples whereas no c-Ki-ras or N-ras transcripts could be detected throughout the neoplastic process. In addition, no dominant-acting transforming mutations in the ras gene family were detected by DNA transfection experiments using NIH/3T3 cells.
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PMID:Poly(A+)RNA levels of growth-, differentiation- and transformation-associated genes in the progressive development of hepatocellular carcinoma in the rat. 246 94

The ability to introduce the cloned gene into the mouse germ line has made possible to analyze the cis-acting DNA sequence which is involved in the tissue-specific and developmental regulation of the gene. In addition, this system can also be applied to analyze the patho-physiological roles of the introduced gene product within the mouse whole body. Therefore, this system is one of the best approaches to analyze the mechanism of oncogenesis. The chromosomal translocation is one of the mechanisms leading to the activation of oncogene. In the case of lymphoid cell tumors, the reciprocal translocation between chromosome No. 8 and No. 14 is frequently observed. With this translocation, c-myc gene can be activated by the enhancer of immunoglobulin heavy chain (E mu). We and others have demonstrated that the E mu-myc gene could induce lymphomas in transgenic mice. Following these observation we have currently many examples that activated oncogene can induce variety tumors, giving basic knowledge about the relationship between activated oncogene and cell-type specificity of tumor. On the other hand, molecular mechanism of oncogenesis which is caused by viruses such as hepatitis B virus (HBV) or human T cell leukemia virus (HTLV) is totally unknown. One main reason is the absence of animal model for these diseases. To overcome this problem, we have attempted and succeeded to produce a transgenic mouse model which consistently produces HBV. Using these mice, it will be possible to elucidate the molecular mechanism of development of hepatitis and hepatocellular carcinoma.
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PMID:[Transgenic mice and their use in cancer study]. 249 65

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