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 estrogen response element (ERE) directly linked to a TATA box induces CAT activity in a hormone-dependent manner in Fe 33 cells, the rat hepatoma cell line FTO-2B, stably transfected with the human estrogen receptor (ER). The same promoter construct mediates the stimulation of in vitro transcription. This stimulation is dependent on the presence of the ERE. Induction of transcription in a variety of nuclear extracts derived from mammalian cells is of the same magnitude irrespective of the presence of ER. Similarly, transcription in vitro mediated by B1 vitellogenin 5' flanking sequences in different nuclear extracts is not due to the interaction of the ER with the ERE. Competition analyses with a variety of oligonucleotides reveal that proteins different from the ER, which recognize ERE-like DNA elements, functionally interact with the ERE in vitro. These experiments suggest that ubiquitous proteins related or even identical to the transcription factor USF (MLTF) activate in vitro transcription in an ERE-dependent manner.
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PMID:Transcription factors different from the estrogen receptor stimulate in vitro transcription from promoters containing estrogen response elements. 232 26

We have previously described the inhibition of glucocorticoid-dependent transcription from the mouse mammary tumor virus long terminal repeat promoter by products of the H-ras and v-mos oncogenes. We have studied the effects of conditional oncogenes on expression of glucocorticoid-dependent indicator genes. Expression of the glucocorticoid-dependent transcription of the tyrosine aminotransferase gene was monitored in FTO-2B rat hepatoma cells during Mr 21,000 protein (p21) H-ras induction. A strong transcriptional repression of the tyrosine aminotransferase gene followed p21 H-ras expression. The sequences in a glucocorticoid-dependent promoter which are responsible for the oncogene-mediated repression could be localized to the glucocorticoid response element; a construct in which a 15-base pair glucocorticoid response element was inserted 5' of the thymidine kinase promoter exhibited the oncogene-mediated repression of transcription. We observed a strong repression of glucocorticoid-dependent promoters and promoter constructs not only in the presence of p21 H-ras and p37 v-mos but also with p60 v-src. p57 v-myc, however, had no effect. Oncogene expression is not a sufficient prerequisite for an initial repression of glucocorticoid hormone-dependent gene transcription, since even in the presence of constitutively high levels of oncogene product a transient stimulation of glucocorticoid-dependent gene expression was found. Protein synthesis inhibition experiments revealed that no hormonally induced cellular protein is needed for the oncogene-mediated repression. It seemed reasonable that this phenomenon might reflect oncogene effects on the glucocorticoid receptor. We, therefore, made measurements of the glucocorticoid receptor protein. In the presence of glucocorticoid hormone the receptor translocated rapidly from the cytoplasm to the nucleus. In normal NIH 3T3 cells, after 24-h treatments the nuclear receptor levels had declined to about 50% of those determined at 2 h and in the presence of p21 H-ras they declined to 15%. The levels of cytoplasmic receptor were not affected by p21 H-ras expression.
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PMID:Oncogene mediated repression of glucocorticoid hormone response elements and glucocorticoid receptor levels. 256 9

It is now well established that cAMP induces the transcription rate of the gene for phosphoenolpyruvate carboxykinase (GTP) (EC 4.1.1.32) and that this induction is dependent on a nucleotide domain located within the promoter-regulatory region of the gene (Short, J. M., Wynshaw-Boris, A., Short, H. P., and Hanson, R. W. (1986) J. Biol. Chem. 261, 9721-9726). We report here that cAMP also stabilizes phosphoenolpyruvate carboxykinase mRNA against degradation. Using two independent experimental approaches, we show that the half-life of the mRNA for phosphoenolpyruvate carboxykinase is extended when FTO-2B rat hepatoma cells are exposed to dibutyryl cyclic AMP (Bt2cAMP). In the first experiment, the rate of decay of phosphoenolpyruvate carboxykinase mRNA was determined in cells incubated in the presence of insulin, which has been shown to block the transcription rate of the gene for the enzyme. Under these conditions, the half-life of phosphoenolpyruvate carboxykinase mRNA was 30 min. However, in cells incubated in the presence of Bt2cAMP, the mRNA decayed with a half-life of 150 min. In the other experiment, mRNA stability was measured under steady state conditions, utilizing a "pulse-chase" approach. The apparent half-life of phosphoenolpyruvate carboxykinase mRNA increased from 40 min to over 250 min in Bt2cAMP-treated cells. No significant change in the stability of total cellular RNA was noted. Other experiments have shown that the transcription rate of the gene for phosphoenolpyruvate carboxykinase peaks within the first 20 min after exposing the cells to Bt2cAMP and then levels off, while the abundance of the mRNA reaches a maximum at about 90 min and remains at this level thereafter. Thus, the long term effect of cAMP on the expression of the gene coding for phosphoenolpyruvate carboxykinase occurs at least in part, through an alteration in the degradation rate of the mRNA for this enzyme.
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PMID:Cyclic AMP stabilizes the mRNA for phosphoenolpyruvate carboxykinase (GTP) against degradation. 283 95

Salivary proline-rich proteins are encoded by tissue-specific multigene families, and are dramatically induced in mice, rats, and hamsters by treatment with the beta agonist isoproterenol. Salivary gland cells, however, are difficult to maintain in a differentiated state in culture and can be induced to synthesize proline-rich protein mRNAs for only a few days. In an attempt to establish a cell line in which it would be possible to regulate proline-rich protein gene transcription, rat parotid gland cells were fused with the rat hepatoma cell line, FTO-2B. Fused cells were obtained that had a frequency of 7.5 x 10(-6), which is about 125-fold greater than the reversion rate of FTO-2B. The hybrid cells exhibited induced proline-rich protein mRNA synthesis when incubated with either dibutyryl cyclic AMP or forskolin. The ability to induce these genes was maintained for at least 20 passages. Most of the fused cell populations also synthesized elevated levels of alpha-amylase mRNA, another tissue-specific gene.
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PMID:Regulation of proline-rich protein and alpha-amylase genes in parotid-hepatoma hybrid cells. 284 50

The effect of insulin on the abundance of mRNAs coding for tyrosine aminotransferase (TAT; EC 2.6.1.5), tryptophan oxygenase (TO; EC 1.13.1.12), and P-enolpyruvate carboxykinase(GTP) (PEPCK; EC 4.1.1.32) was examined in primary cultures of adult rat hepatocytes and in FTO-2B rat hepatoma cells by Northern blot analysis using RNA probes made from SP6-cDNAs. Insulin (10(-11)-10(-7) M), which has been reported to induce TAT and decrease the activity of TO, did not change the levels of TAT mRNA and TO mRNA in hepatocytes regardless of the presence of other inducers. In the same cells, dexamethasone increased TAT mRNA up to 19-fold and TO mRNA up to 15-fold, and 8pClPhS-cAMP (CPT-cAMP) raised the level of TAT mRNA up to 36-fold. The abundance of TO mRNA was not altered by CPT-cAMP. In contrast to TAT mRNA and TO mRNA, the level of PEPCK mRNA was dramatically decreased by insulin in the same hepatocytes. The sensitivity to this inhibitory effect of insulin was enhanced by dexamethasone and reduced by CPT-cAMP. FTO-2B hepatoma cells, which do not express detectable levels of TO mRNA, showed responses similar to those of hepatocytes, except that insulin caused a moderate reduction in TAT mRNA, but only in the presence of CPT-cAMP. The PEPCK mRNA in FTO-2B cells was suppressed by insulin in a manner closely resembling the effects in hepatocytes in the present study and in H4IIE hepatoma cells previously reported.
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PMID:Regulation of gene expression in rat hepatocytes and hepatoma cells by insulin: quantitation of messenger ribonucleic acid's coding for tyrosine aminotransferase, tryptophan oxygenase, and phosphoenolpyruvate carboxykinase. 287 68

Transcription of the gene for cytosolic Phosphoenolpyruvate carboxykinase (GTP) (EC 4.1.1.32) (PEPCK) from rat liver is increased by cAMP and glucocorticoids and decreased by insulin. A PEPCK-thymidine kinase (TK) chimeric gene was transfected into FTO-2B rat hepatoma cells, which were TK-deficient. Previous studies showed that a cAMP regulatory element is located at the 5' end of the PEPCK gene. In this report, we demonstrate that the 5' end of the gene also contains a glucocorticoid regulatory element, but not one for insulin. Regions of the PEPCK gene that contain these regulatory elements were attached to the Herpes simplex virus TK structural gene containing its own promoter. The hormone regulatory elements within the 5' flanking region of the PEPCK gene conferred cAMP and glucocorticoid responsiveness on the TK gene after transfection into FTO-2B cells. Like viral enhancer elements, these regulatory elements functioned properly when placed in either orientation at various positions 5' or 3' to TK. The presence of the SV40 enhancer element upstream from the PEPCK-TK gene had little effect on the basal level of expression or hormonal regulation of the chimeric gene.
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PMID:Characterization of the phosphoenolpyruvate carboxykinase (GTP) promoter-regulatory region. I. Multiple hormone regulatory elements and the effects of enhancers. 301 2

Hormonal regulatory elements within the phosphoenolpyruvate carboxykinase (GTP) (EC 4.1.1.32) (PEPCK) promoter region were mapped using a series of 5' deletions linked to the amino-3'-glycosyl phosphotransferase structural gene. These deletion mutants were stably transfected into the genome of FTO-2B hepatoma cells. A 47-base pair region of the PEPCK promoter was identified which was essential for stimulation by dibutyryl cAMP. A 12-base pair core sequence (CTTACGTCAGAG) within this region shows significant homology with sequences in four other cAMP-regulated genes. There are two glucocorticoid regulatory elements within the promoter, as well as an inhibitory element which depresses the level of basal gene transcription. The deletion of this inhibitory sequence prevents the induction of the chimeric gene by dexamethasone. The existence of the hormone regulatory domains within the PEPCK promoter was confirmed by attaching these elements upstream of the heterologous Herpes simplex virus thymidine kinase structural gene, containing its own promoter.
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PMID:Characterization of the phosphoenolpyruvate carboxykinase (GTP) promoter-regulatory region. II. Identification of cAMP and glucocorticoid regulatory domains. 301 3

cAMP stimulates the transcription of the gene for the cytosolic form of phosphoenolpyruvate carboxykinase (GTP) (EC 4.1.1.32) (PEPCK) in rat liver. We have investigated the nucleotide sequences required for regulation of PEPCK gene expression by cAMP. A chimeric gene was constructed in which a 620-base pair fragment of the 5'-end of the PEPCK gene (including 547 base pairs of 5'-flanking sequence) was ligated to the herpes simplex virus thymidine kinase (TK) structural gene. The PEPCK promoter fragment was introduced either in the proper orientation for transcription of the TK gene or in the opposite orientation. These fusion genes and the parent vector, pOPF, which contains the intact TK gene, were transfected individually into TK-deficient FTO-2B rat hepatoma cells. FTO-2B cells contain an active endogenous PEPCK gene which is stimulated by cAMP. Cells were selected in HAT medium and grown either as mass cell cultures or as individual clones. Dibutyryl cyclic AMP (Bt2cAMP) plus theophylline (16 h) stimulated TK activity 1.6-6.1-fold in cell lines transfected with the PEPCK-TK fusion gene containing the PEPCK promoter fragment in the correct orientation. However, the intact TK gene was not induced by Bt2cAMP after transfection, nor was there any expression of the PEPCK-TK fusion gene in cells which contained the PEPCK promoter fragment in the wrong transcriptional orientation. Bt2cAMP also increased the levels of TK mRNA in cells transfected with the PEPCK-TK fusion gene, but not in cells transfected with the intact TK gene. The chimeric PEPCK-TK mRNA initiated at the PEPCK start site, as determined by S1 nuclease mapping. There was no relationship between the number of copies of the PEPCK-TK gene integrated in the various cell lines and either the basal level of TK activity or its inducibility of Bt2cAMP.
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PMID:Identification of a cAMP regulatory region in the gene for rat cytosolic phosphoenolpyruvate carboxykinase (GTP). Use of chimeric genes transfected into hepatoma cells. 609 Apr 58

We have reported previously that the phosphoprotein pp63, an acute phase protein, which has been recently identified as the rat fetuin, was capable of blocking the mitogenic effect of insulin on the rat Fao hepatoma cell line, without affecting metabolic effects of the hormone. Only the phosphorylated form of the protein has been shown to exhibit both anti-tyrosine kinase and growth inhibitory properties. In this study, we used the FTO-2B rat hepatoma cell line to analyze the mechanisms involved in the control of synthesis and/or phosphorylation of pp63. For this purpose, we investigated the action of effectors known to modulate hepatic functions, such as cytokines (interleukin (IL)-1 beta and IL-6), which regulate the production of acute phase proteins, and insulin, which elicits profound effects on hepatocyte metabolism. Here, we demonstrate that IL-1 beta diminished markedly the pp63 production by affecting its mRNA transcription and that the cytokine was able to modify the N-glycosylation process of the protein. In contrast, insulin did not affect the biosynthesis of pp63 but dramatically decreased its extent of phosphorylation.
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PMID:Insulin and interleukin-1 differentially regulate pp63, an acute phase phosphoprotein in hepatoma cell line. 751 65

Insulin-like growth factor II (IGF II) regulated tissue-specific gene expression in hepatoma cell lines, but had no effect on expression of tissue-specific genes in primary cultures of E14 and newborn rat liver cells depleted of erythroid cells. No change was observed in these primary cultures with respect to alpha-fetoprotein (alpha-FP), albumin, cytokeratin 19 (CK19), gamma-glutamyltranspeptidase (GGT), and IGF II receptors. Two well-differentiated hepatoma, HepG2 and FTO-2B, and a poorly differentiated hepatoma, H4AzC2, did not show increased proliferation in the presence of IGF II, yet showed gene expression changes in response to IGF II. In HepG2 cells, IGF II increased albumin mRNA levels and resulted in a shift from clusters of cells positive to 100% of the cells expressing immunohistochemically detectable albumin. The transcription factor HNF-3 beta mRNA and protein levels of the bile duct markers, CK19 and GGT, were also increased in the presence of IGF II. Other genes tested were not affected, including alpha-1-antitrypsin, and two liver-specific transcription factors, HNF-4 and HNF-3 alpha. In FTO-2B cells, IGF II increased the expression of albumin, CK19, and GGT, without accompanying changes in albumin and GGT mRNAs. In H4A7C2 cells, IGF II reduced CK19 and OC.3 protein levels and GGT, transferrin, and HNF-3 beta mRNAs. The effects of IGF II on H4AZC2 cells were not blocked in the presence of an anti-rat IGF II receptor antibody. We conclude that IGF II affects tissue-specific gene expression of hepatomas and qualitative and quantitative aspects of its influence on the hepatomas is dependent on their degree of differentiation.
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PMID:Insulin-like growth factor II regulation of gene expression in rat and human hepatomas. 752 37

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