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)

A cellular transcription factor, ATF, binds to a repeated element in the adenovirus early region 4 (E4) promoter. ATF also binds to other viral early promoter regions and to the cyclic AMP (cAMP) response elements of cellular genes. In this report, we demonstrate that a single ATF-binding site located immediately upstream of the E4 TATA box, between -62 and -46, mediates induction of E4 transcription by 8-bromoadenosine-3',5-cyclic monophosphate or cholera toxin in the human hepatoma cell line HepG2 and rat pheochromocytoma cell line PC12. Different ATF-binding sites in the E4 control region independently conferred cAMP inducibility on the simian virus 40 early promoter in PC12 cells. Induction of E4 expression by cAMP was also observed in virus-infected HepG2 cells. Other viral early promoter regions that contain ATF-binding sites (E1A and E2A) were also induced by cAMP in infected cells. E4 expression was activated by the E1A 13S mRNA products in HepG2 cells. E1A trans activation appears to be distinct from the cAMP response.
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PMID:Independent cyclic AMP and E1A induction of adenovirus early region 4 expression. 254 14

The beta-adrenergic responsiveness of hepatocytes obtained from hypothyroid rats and of a transplantable hepatoma cell line (AS-30D) were studied by measuring the accumulation of cyclic AMP. The potency order for agonists in hepatocytes was: isoproterenol greater than epinephrine much greater than norepinephrine whereas in the hepatoma cells the potency order was: isoproterenol greater than norepinephrine greater than or equal to epinephrine. The effect of isoproterenol was antagonized in hepatocytes by low concentrations of ICI 118551 and only partially by concentrations of atenolol as high as 100 microM. In hepatoma cells the effect of isoproterenol was inhibited by both antagonists with the potency order atenolol greater than ICI 118551. These data indicate that in hepatocytes the effect is mediated by beta 2-adrenoceptors whereas in hepatoma cells it is through beta 1-adrenoceptors. Preincubation of hepatoma cells with isoproterenol or phorbol-myristate-acetate diminished the subsequent beta-adrenergic responsiveness of the cells. Interestingly, when both isoproterenol and phorbol-myristate-acetate were present during the preincubation the beta-adrenergic desensitization observed was bigger than that induced by any of these agents alone.
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PMID:Beta 1-adrenoceptors in rat hepatoma. Desensitization by isoproterenol and phorbol-myristate-acetate. 254 79

Transcription of the low-density lipoprotein receptor (LDL-R) gene in the human monocytic leukemic cell line THP-1 and in the human hepatocarcinoma cell line Hep-G2 is regulated by second messengers of the diacylglycerol-protein kinase C (DAG-PKC), inositol 1,4,5-triphosphate-Ca2+, and cyclic AMP pathways. Exogenous phospholipase C (which releases DAG and inositol 1,4,5-triphosphate), PKC activators (phorbol esters and DAG), Ca2+ ionophores, and a cyclic AMP analog all transiently induced accumulation of LDL-R mRNA. The effects of these three signal-transducing pathways were to a large extent additive. Furthermore, PKC stimulation effected an increase in LDL binding, which suggested that the increase in LDL-R mRNA resulted in an increase in functional cell surface receptor activity. These results suggest that uptake of cholesterol by these cells is under control of both intracellular cholesterol levels and external signals.
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PMID:Involvement of second messengers in regulation of the low-density lipoprotein receptor gene. 254 77

Biochemical and immunochemical studies were undertaken to quantify the effects of cyclic AMP on cyclic AMP-dependent protein kinase subunit levels in nuclei of H4IIE hepatoma cells. Dibutyryl cyclic AMP (10 microM) caused a significant biphasic (10 and 120 min after stimulation) increase in total nuclear protein kinase activity. The increase observed 10 min after dibutyryl cyclic AMP stimulation was primarily due to an approx. 3-fold increase of catalytic (C) subunit activity, whereas the change observed 120 min after stimulation consisted of an increase in both C subunit and cyclic AMP-independent protein kinase activities. Analysis of nuclear protein extracts by photoaffinity labelling with 8-azido cyclic [32P]AMP identified only the type II regulatory subunit (RII), but not the type I regulatory subunit (RI). Analysis of nuclear RII variants by two-dimensional gel electrophoresis demonstrated that dibutyryl cyclic AMP caused the appearance of two RII variant forms which were not present in the nuclei of unstimulated cells. Using affinity-purified polyclonal antibodies and immunoblotting procedures, we identified an approx. 2-fold increase in the RII and C subunits in nuclear extracts of dibutyryl cyclic AMP-treated hepatoma cells. Finally, the RI, RII and C subunits were quantified by an e.l.i.s.a. which indicated that dibutyryl cyclic AMP increased nuclear RII and C subunits levels biphasically, reaching peak values 10 and 120 min after the initial stimulation. Nuclear RI subunit levels were not affected. These results provide qualitative as well as quantitative evidence for a modulation by cyclic AMP of the nuclear RII and C subunit levels in rat H4IIE hepatoma cells, and indicate a relatively rapid but temporarily limited dibutyryl cyclic AMP-induced translocation of the RII and C subunits to nuclear sites.
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PMID:Modulation of nuclear cyclic AMP-dependent protein kinase in dibutyryl cyclic AMP-treated rat H4IIE hepatoma cells. 254 85

Forskolin increased intracellular cyclic AMP and augmented cyclic AMP formation by prostaglandin E1 (PGE1) in normal rat hepatocytes and ascites hepatoma AH66 cells. However, in AH66F cells which were derived from the AH66 cell line, the diterpene only slightly increased the cyclic AMP level, and dose-dependently inhibited the accumulation caused by PGE1. Forskolin dose-dependently activated adenylate cyclase in these membranes, and the magnitude of activation by forskolin was largest in the following order: hepatocytes, AH66 cells, and AH66F cells. This difference may be based on the number of forskolin-binding sites. The binding affinity of forskolin for each cell membrane was similar. The number and affinity of forskolin-binding sites in these cells were not influenced by 5'-guanylylimidodiphosphate [Gpp(NH)p]. In hepatocytes and AH66 cells, forskolin and other adenylate cyclase activators such as PGE1, GTP, Gpp(NH)p, F-, and Mn2+ synergistically increased the enzyme activity. In AH66F cells, the forskolin-stimulated activity was hardly influenced by the GTP analog, and forskolin diminished the activities induced by the GTP analog in a manner similar to that of diterpene alone. Forskolin (10 microM) also significantly inhibited the activities induced by PGE1, GTP, and F-. The effect of forskolin with Mn2+ was additive in AH66F cells. The data suggest that forskolin promotes the interaction between the stimulatory guanine nucleotide-binding protein and the catalytic unit in the membrane of normal hepatocytes and AH66 cells, but it interferes with the coupling in AH66F cells.
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PMID:Forskolin inhibits the Gs-stimulated adenylate cyclase in rat ascites hepatoma AH66F cells. 255 5

The 5' flanking regions of the rat phosphoenolpyruvate carboxykinase gene were used to form chimeric gene constructs with the human growth hormone gene. These constructs were transfected into several renal and one liver cell line and the production of growth hormone (HGH) measured by immunoassay. Cyclic-AMP and glucocorticoid responsiveness of HGH production was observed in all cell lines. In two lines, the rat NRK52E renal epithelial line and the rat H4IIE hepatoma cell line, both capable of expressing PEPCK, lowering extracellular pH increased HGH production several fold. Comparison of hormone and pH effect on cells transfected with a thymidine kinase promoter-HGH chimera indicated that the PEPCK 5' flanking region effects were specific. Thus, part of the pH responsiveness of the PEPCK gene in vivo may be attributed to properties of the 5' flanking regions.
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PMID:The 5'region of the rat phosphoenolpyruvate carboxykinase gene confers pH sensitivity to chimeric genes expressed in renal and liver cell lines capable of expressing PEPCK. 255 24

In liver, the 470-residue bifunctional enzyme 6-phosphofructo-2-kinase/fructose-2,6-bisphosphatase (PFK-2/FBPase-2) catalyses the synthesis and degradation of fructose 2,6-bisphosphate, a potent stimulator of glycolysis. In rat hepatoma (HTC) cells, this enzyme has kinetic, antigenic, and regulatory properties, such as insensitivity to cyclic AMP-dependent protein kinase and lack of associated FBPase-2 activity, that differ from those in liver. To compare the sequence of the HTC enzyme with that of the liver enzyme, we have cloned the corresponding fully-coding cDNA from HTC cells. This cDNA predicts a protein of 448 residues in which the first 32 residues of liver PFK-2/FBPase-2 including the cyclic AMP target sequence have been replaced by a unique N-terminal decapeptide. The rest of the protein is identical with the liver enzyme. An N-terminally truncated recombinant peptide of 380 residues containing the PFK-2 and FBPase-2 domains was expressed in Escherichia coli as a beta-galactosidase fusion protein. It was recognized by anti-PFK-2 antibodies but its enzymic activities were barely detectable. In contrast, a cDNA fully-coding for the HTC enzyme could be expressed in E. coli as a beta-galactosidase-free peptide that exhibited both PFK-2 and FBPase-2 activities. This peptide had those PFK-2 kinetic properties of the HTC enzyme that differ from the liver enzyme. These data, together with immunoblot experiments, suggest that the lack of associated FBPase-2 activity in HTC cells results from a post-translational modification of the enzyme rather than from the difference in amino acid sequence. As well as this peculiar type of PFK-2/FBPase-2 mRNA, HTC cells also contained low concentrations of the liver-type mRNA. Unlike in liver, neither mRNA was induced by dexamethasone in these cells.
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PMID:Cloning and expression in Escherichia coli of a rat hepatoma cell cDNA coding for 6-phosphofructo-2-kinase/fructose-2,6-bisphosphatase. 255 26

Studies of glucocorticoid and antiglucocorticoid induction of tyrosine aminotransferase (TAT) in two rat hepatoma cell lines (Fu5-5 and HTC) are described. These studies revealed several phenomena that are not consistent with the current models of steroid hormone action: (a) TAT induction occurred at glucocorticoid levels below those required for comparable receptor occupancy in Fu5-5, but not in HTC, cells; (b) the ability of antiglucocorticoids to induce TAT is higher in Fu5-5 than in HTC cells; (c) the values of the amount of TAT agonist activity with the antiglucocorticoid dexamethasone 21-mesylate and of log10 of the dexamethasone concentration required for half-maximal induction of TAT were not constant over time but varied in a linear, reciprocal manner. This modulation was seen for several glucocorticoids and antiglucocorticoids at the level of both TAT enzyme and mRNA but not for two other glucocorticoid inducible genes in the same cells. These results, plus the fact that a similar difference in the concentration required for half-maximal TAT induction in Fu5-5 cells was seen for both glucocorticoids and cyclic AMP, argue that the modulation occurs at some point distal to receptor-steroid complex binding to the biologically active nuclear sites but proximal to translation of TAT mRNA. In order to explain these results, it is pointed out that models involving second messengers are entirely appropriate for steroid hormone action. The participation of a modulated trans-acting factor in such a model may explain the above results.
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PMID:Differential modulation of gene induction by glucocorticoids and antiglucocorticoids in rat hepatoma tissue culture cells. 256 8

We used indirect end labeling to identify a series of five hypersensitive (HS) sites in the phosphoenolpyruvate carboxykinase (PEPCK) gene in H4IIE rat hepatoma cells. These sites were found at -4800 base pairs (bp) (site A), at -1300 bp (site B), over a broad domain between -400 and -30 bp (site C), at +4650 bp (site D), and at +6200 bp (site E). Sites A to D were detected only in cells capable of expressing the PEPCK gene, whereas site E was present in all of the cells examined thus far. The HS sites were present in H4IIE cells even when transcriptional activity was reduced to a minimum by treatment with insulin. Stimulation of transcription by a cyclic AMP analog to a 40-fold increase over the insulin-repressed level did not affect the main features of the HS sites. Furthermore, increased transcription did not disrupt the nucleosomal arrangement of the coding region of the gene, nor did it affect the immediate 5' region (site C), which is always nucleosome-free. In HTC cells, a rat hepatoma line that is hormonally responsive but unable to synthesize PEPCK mRNA, the four expression-specific HS sites were totally absent. Our experimental results also showed that, although there is a general correlation between lack of DNA methylation and transcriptional competence of the PEPCK gene, the role, if any, of methylation in the regulation of PEPCK gene activity is likely to be exerted at very specific sites.
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PMID:Hormonal regulation of phosphoenolpyruvate carboxykinase gene expression is mediated through modulation of an already disrupted chromatin structure. 265 89

The degradation of endogenous adenine nucleotides was compared in mitochondria isolated from mouse and rat liver, rat renal cortex and solid hepatoma. Mitochondria were incubated for 30 min at 37 degrees C in the presence of carboxyatractyloside and oligomycin. In rat liver mitochondria ATP, ADP and AMP were degraded by about 25% each, whereas in kidney and hepatoma mitochondria a rapid decline of ATP and ADP but no change in the AMP contents were observed. Main products formed were adenosine, inosine and hypoxanthine in all mitochondria examined. Compartment studies revealed that the main route of intramitochondrial adenine nucleotide catabolism seems to proceed via AMP dephosphorylation and subsequent adenosine deamination.
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PMID:The adenine nucleotide catabolism in nonphosphorylating mitochondria of different tissues. 273 Jun 29

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