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Query: UMLS:C0019204 (
hepatocellular carcinoma
)
71,386
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
alpha-Fetoprotein (AFP), a liver-specific protein, is extinguished in somatic cell hybrids formed by the fusion of mouse
hepatoma
cells (BWTG3) with rat fibroblast cells (
JF1
). Our studies show that the extinction of mouse AFP expression in these somatic cell hybrids may involve at least two cis-acting regulatory domains, i.e., the enhancer elements and a tissue-specific promoter region, which are located in the 5'-flanking region of the AFP gene.
...
PMID:Extinction of alpha-fetoprotein gene expression in somatic cell hybrids involves cis-acting DNA elements. 244 Dec 43
By use of different restriction enzymes sensitive to internal cytosine methylation (HpaII, AvaI, HhaI) we have analysed the methylation patterns of albumin and AFP genes in tissues and cell lines with high (liver, yolk sac,
hepatoma
cell lines), low (fetal and neonatal kidney) or undetectable (spleen,
JF1
fibroblasts) expression of either gene. We show that expression of the AFP gene is associated to the demethylation of a whole region or domain extending from -4 to +3 Kb. Moreover, demethylation of a site located at the upstream limit of this domain appears to be correlated with the commitment of the cell type to synthesize AFP. As concerns the albumin gene, we show that the domain in which demethylation is correlated with active gene transcription in
hepatoma
cell lines has different borders than in tissue. This difference might be related to the different amounts of mRNA synthesized or to an alteration in gene regulation in tumor cells. Finally, we show that low expression of albumin and AFP genes in fetal and neonatal kidney is not correlated with domain demethylation, suggesting that the regulatory mechanisms of expression of these genes are different in kidney as compared with liver.
...
PMID:Differences in methylation patterns of the alpha-fetoprotein and albumin genes in hepatic and non hepatic developing rat tissues. 245 24
Hybrids formed by the fusion of mouse
hepatoma
(BWTG3) and rat fibroblast (
JF1
) cells exhibit the extinction of mouse albumin and alpha-fetoprotein synthesis. Karyotype analyses suggest that all parental chromosomes are present in the hybrids. The extinction, therefore, of mouse hepatocyte genes is attributed to the inhibitory action of the rat genome. In these studies, we show that these hybrids possess and express the mouse beta-glucuronidase gene (which is encoded on the same chromosome as the mouse albumin and alpha-fetoprotein gene), and we present data of Southern blot analysis which demonstrate that such hybrids have indeed retained both mouse and rat albumin DNA sequences. In addition, using mouse albumin cDNA, we have shown by cDNA-RNA reassociation kinetics that albumin mRNA is virtually absent in these hybrids. We conclude from these studies that the extinction of albumin synthesis involves a mechanism which results in the loss of cytoplasmic albumin mRNA.
...
PMID:Molecular mechanism of extinction of liver-specific functions in mouse hepatoma x rat fibroblast hybrids: extinction of the albumin gene. 618 Apr 88
We have examined the DNase I sensitivity of the albumin and alpha-fetoprotein (AFP) genes in different rat tissues (adult liver and kidney) and cloned cell lines (
hepatoma
7777-C8,
JF1
fibroblasts), which show drastic differences in the level of expression of these two genes. This was done by studying the disappearance of defined restriction endonuclease fragments of these genes as a function of limited DNase I digestion. The sensitivity of these genes was compared to that of a gene not expressed in the hepatic cells and to that of a ubiquitously expressed gene. In nuclei from adult rat liver the albumin and AFP genes were preferentially degraded by the nucleolytic action of DNase I, whereas they were not in rat kidney nuclei. In the
hepatoma
cells the AFP gene was much more sensitive to DNase I digestion than the albumin gene; both genes were very resistant to DNase I action in fibroblastic nuclei. When analyzed in relation to the level of gene expression our results indicate that alterations in the chromatin structure of the albumin and AFP genes might be involved in the early establishment of the tissue-specific potential of overt gene expression; such alterations reflected in an altered DNase I sensitivity do not appear to be responsible for the changes in gene activity occurring during the terminal differentiation of the hepatocyte; and modifications in the chromatin structure of these genes might occur during oncogenic events; these structural modifications could be related to the changes in gene expression observed in hepatocarcinogenic processes.
...
PMID:Differential DNase I sensitivity of the albumin and alpha-fetoprotein genes in chromatin from rat tissues and cell lines. 620 92
Somatic cell hybrids formed by the fusion of mouse
hepatoma
(BWTG3) and rat fibroblast (
JF1
) cells exhibit the extinction of mouse AFP gene expression. Analysis of HindIII digests clearly shows that both mouse and rat AFP genes are present in the hybrids. DNA-RNA hybridization data show that AFP mRNA is virtually absent in the somatic cell hybrids. Our studies indicate, therefore, that extinction of mouse AFP gene expression in somatic cell hybrids (BJ01, BJ50, and BJ140) occurs in the presence of the rat genes and that the mechanism of extinction involves processes that result in the loss of AFP mRNA. We propose that the mechanism may involve either the inhibition of transcription or an inhibition of the processing of the mRNA transcript.
...
PMID:Molecular mechanisms of extinction of liver-specific functions in mouse hepatoma rat fibroblast hybrids: extinction of alpha-fetoprotein gene. 620 77
