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)

We screened for rat hepatocellular carcinoma (HCC)-related genes by a novel cDNA subtraction method and obtained one gene. This gene was transcribed as 2.0- and 2.5-kb mRNAs, and its transcription was specifically enhanced in HCC. These cDNAs had the same open reading frame, but the 2.5 kb transcript had an extra 495 bases of 5'-UTR at the 5'-terminus. The deduced aa sequence revealed a basic-leucine zipper (b-ZIP) and proline/glutamine-rich structures, both of which are characteristic motifs for transcription factors. We designated the translation product of this gene HTF (Hepatocarcinogenesis-related Transcription Factor). Electrophoretic mobility shift assay demonstrated the DNA-binding ability of the recombinant HTF. It is most interesting that HTF had a considerable homology with human XBP/TREB5, which has been reported to be a binding factor for the X-box of the MHC class II gene and for the 21-bp enhancer of the HTLV-1 LTR. Genomic Southern analysis suggested that the 2.0- and 2.5-kb mRNAs are transcribed by a dual promoter of a single gene. Our results may suggest that HTF is a b-ZIP-type transcription factor involved in rat hepatocellular carcinoma.
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PMID:HTF: A b-ZIP transcription factor that is closely related to the human XBP/TREB5 and is activated by hepatocellular carcinoma in rats. 868 68

A study was undertaken to assess the role of a physiological concentration of glutamine in AS-30D cell metabolism. Flux of 14C-glutamine to 14CO2 and of 14C-acetate to glutamate was detected indicating reversible flux between glutamate and TCA cycle alpha-ketoglutarate. These fluxes were transaminase dependent. A flux analysis was compared using data from three tracers that label alpha-ketoglutarate carbon 5, [2-14C]glucose, [1-14C]acetate and [5-14C]glutamine. The analysis indicated that the probability of flux of TCA cycle alpha-ketoglutarate to glutamate was, at minimum, only slightly less than the probability of flux of alpha-ketoglutarate through alpha-ketoglutarate dehydrogenase. The apparent Km for oxidative flux of [14C]glutamine to 14CO2, 0.07 mM, indicated that this flux was at a maximal rate at physiological, 0.75 mM, glutamine. Although oxidative flux through alpha-ketoglutrate dehydrogenase was the major fate of glutamine, flux of glutamine to lipid via reductive carboxylation of alpha-ketoglutarate was demonstrated by measuring incorporation of [5-14C]glutamine into 14C-lipid. In media containing glucose (6 mM), and glutamine (0.75 mM) 47 per cent of the lipid synthesized from substrates in the media was derived from glutamine via reductive carboxylation and 49 per cent from glucose. These findings of nearly equal fluxes suggest that lipogenesis via reductive carboxylation may be an important role of glutamine in hepatoma cells.
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PMID:Glutamine metabolism in AS-30D hepatoma cells. Evidence for its conversion into lipids via reductive carboxylation. 875 Nov 55

In the presence of 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) and related chemicals, the Ah receptor nuclear translocator (Arnt) forms a heterodimeric complex with the ligand-bound Ah receptor, leading to recognition of dioxin-responsive elements within the enhancer of the CYP1A1 gene and transcription activation by an unknown mechanism. To understand the role of Arnt in transcription activation by the Ah receptor-Arnt heterodimer, we performed a deletion analysis of Arnt to locate domains that are directly involved in transcription activation. We showed that the C-terminal 34 amino acids of Arnt encode a transcription activation domain (TAD) that functions independently of other sequences in the Ah receptor complex when attached to the heterologous Gal4 DNA binding domain. Deletion of the C-terminal acidic-rich 14 amino acids completely abolishes activity. Sequences important in Arnt TAD function were independent of the glutamine-rich region which is an important structural feature in the TAD of other transcription factors. The strength of the Arnt TAD when compared with the strong TAD from the herpes simplex virus VP16 protein was cell-type specific. Both the Arnt and VP16 TAD were equally strong in COS-1 cells, but the Arnt TAD had weak activity in an Arnt-deficient mouse hepatoma cell line and was not needed for restoration of CYP1A1 activation. These results imply that for CYP1A1 activation the Ah receptor provides the dominant activation function for the heterodimer in hepatoma cells. The potential of the Arnt TAD to contribute to activation by the Ah receptor complex is likely determined by availability or activity of cell-specific factors with which the TAD interacts.
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PMID:Identification of a cell-specific transcription activation domain within the human Ah receptor nuclear translocator. 880 43

Expression of c-myc regulates apoptotic cell death in the human hepatoma cell line HuH-7 during culture in serum-free medium (SFM) plus zinc. To understand the mechanism of this c-myc effect, the ability of various serum-contained factors to prevent apoptosis was determined. Apoptosis was not inhibited by growth factors and was even accelerated by supplementation with insulin-like growth factor I or insulin. Cell death was prevented by SFM supplementation with the amino acid glutamine but not serine or asparagine. Improved cell survival with glutamine was associated with increased levels of glutathione (GSH). In HuH-7 cells cultured in SFM plus zinc, c-myc expression led to decreased levels of GSH, and elevated intracellular levels of hydrogen peroxide (H2O2). Cell death induced by c-myc expression was inhibited by the addition of catalase or dimethyl sulfoxide, a hydroxyl radical scavenger, or by increased intracellular expression of catalase. In contrast to findings in fibroblasts, c-myc-dependent apoptosis during serum deprivation in HuH-7 hepatoma cells was unrelated to a loss of growth factors. Apoptosis resulted from H2O2-mediated oxidative stress with associated glutamine dependent intracellular GSH depletion.
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PMID:c-myc-Dependent hepatoma cell apoptosis results from oxidative stress and not a deficiency of growth factors. 900 48

The rat CYP2D5 P-450 gene is activated in the liver during postnatal development. We previously showed that liver-specific transcription of the CYP2D5 gene is dictated by a proximal promoter element, termed 2D5, that is composed of a binding site for Sp1 or a related factor, and an adjacent cryptic C/EBP (CCAAT/enhancer-binding protein) site. Despite the fact that both C/EBP alpha and C/EBP beta are expressed abundantly in liver, only C/EBP beta is capable of stimulating the 2D5 promoter in HepG2 hepatocarcinoma cells. In addition, activation of the 2D5 promoter by C/EBP beta is completely dependent on the presence of the Sp1 site. Domain switch experiments reveal that C/EBP beta proteins containing either the leucine zipper or the activation domain of C/EBP alpha are unable to stimulate the 2D5 promoter yet are fully capable of transactivating an artificial promoter bearing a high-affinity C/EBP site. Thus, the leucine zipper and the activation domain of C/EBP beta are absolutely required to support transactivation of the 2D5 promoter. Using Drosophila cells that lack endogenous Sp1 activity, we show that the serine/threonine- and glutamine-rich activation domains A and B of Sp1 are required for efficient cooperatively with C/EBP beta. Furthermore, analysis of c/ebp beta-deficient mice shows that mutant animals are defective in expression of a murine CYP2D5 homolog in hepatic cells, confirming the selective ability of C/EBP beta to activate this liver-specific P-450 gene in vivo. Our findings illustrate that two members of a transcription factor family can achieve distinct target gene specificities through differential interactions with a cooperating Sp1 protein.
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PMID:The ability of C/EBP beta but not C/EBP alpha to synergize with an Sp1 protein is specified by the leucine zipper and activation domain. 912 52

Glutamine catabolism in mammalian liver is catalysed by a unique isoenzyme of phosphate-activated glutaminase. The full coding and 5' untranslated sequence for rat hepatic glutaminase was isolated by screening lambda ZAP cDNA libraries and a Charon 4a rat genomic library. The sequence produces a mRNA 2225 nt in length, encoding a polypeptide of 535 amino acid residues with a calculated molecular mass of 59.2 kDa. The deduced amino acid sequence of rat liver glutaminase shows 86% similarity to that of rat kidney glutaminase and 65% similarity to a putative glutaminase from Caenorhabditis elegans. A genomic clone to rat liver glutaminase was isolated that contains 3.5 kb of the gene and 7.5 kb of the 5' flanking region. The 1 kb immediately upstream of the hepatic glutaminase gene (from -1022 to +48) showed functional promoter activity in HepG2 hepatoma cells. This promoter region did not respond to treatment with cAMP, but was highly responsive (10-fold stimulation) to the synthetic glucocorticoid dexamethasone. Subsequent 5' deletion analysis indicated that the promoter region between -103 and +48 was sufficient for basal promoter activity. This region does not contain an identifiable TATA element, indicating that transcription of the glutaminase gene is driven by a TATA-less promoter. The region responsive to glucocorticoids was mapped to -252 to -103 relative to the transcription start site.
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PMID:Rat hepatic glutaminase: identification of the full coding sequence and characterization of a functional promoter. 916 56

The metabolic response to inflammation involves an increased uptake of amino acids in the liver. It has been suggested that cytokines, such as interleukin-1 beta and interleukin-6, could be involved in this increased amino acid uptake. We investigated the role of these two inflammatory cytokines in regulating hepatic amino acid transport systems in the human hepatoma cell line, HepG2. Uptake of methylaminoisobutyric acid, the most specific known substrate of system A, and of glutamine, both transported by other sodium-dependent transport systems ASC and N, was assayed after incubation of the cells for various times with cytokines, using the cluster-tray method. Interleukin-1 beta and interleukin-6 (1000 U/ml) stimulated methylaminoisobutyric acid uptake by 36 +/- 6 and 41 +/- 4%, respectively (per cent +/- SD, n > or = 6). Under our experimental conditions, these cytokines had no effect on glutamine uptake. The stimulatory effect on methylaminoisobutyric acid uptake was not increased by combining the cytokines or by the presence of dexamethasone. The cytokine effect was abolished by cycloheximide, suggesting the involvement of de novo protein synthesis in this activation of transport system A. These data demonstrate that, in our culture conditions, interleukin-1 beta and interleukin-6 indirectly exert a stimulatory effect on methylaminoisobutyric acid transport in HepG2 cells.
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PMID:Interleukin-1 beta and interleukin-6 stimulate 2-methylaminoisobutyric acid uptake in HepG2 cells. 936 44

The rat hepatoma cell line H4-II-E was found to express much higher activities of Na+-dependent glutamine and aspartate transport than those observed in normal cultured hepatocytes, in agreement with previous work of others on human hepatocytes. Na+-dependent glutamine transport in rat hepatoma cells could be resolved into two components. One was pH-dependent, tolerated Li+ for Na+ substitution and was inhibited only by asparagine and histidine; characteristics similar to those of transport System N in hepatocytes. The other transport system had a similar Km for glutamine but was pH independent, did not accept Li+ ions and was completely inhibited by excess concentrations of lysine, histidine, leucine, serine and cysteine, but not by methyl-aminoisobutyrate or phenylalanine. This pattern of inhibition is distinct from that of any transporter occurring in normal hepatocytes and may indicate the presence of a new transporter isoform. Similar results were obtained with the cell line HTC. Na+-dependent aspartate transport in H4 hepatoma cells was mediated by a high-affinity system (Km 5 microM) and was inhibited by D-aspartate and L-glutamate but not by d-glutamate-properties characteristic of the high-affinity glutamate transporter EAAC1. C-terminal antibodies to the EAAC1 protein recognized a single band of 58 kDa in hepatocyte membranes, but an additional strong band of 60 kDa was present in H4 hepatoma cells. These results provide further evidence for the view that tumour cells may express additional isoforms of amino acid transport systems which are not present in non-transformed cells.
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PMID:Rat hepatoma cells express novel transport systems for glutamine and glutamate in addition to those present in normal rat hepatocytes. 946 18

A variant RL-ET-1G of a rat liver epithelial cell line (RL-ET-1) characterized by a very high inducibility for glutamine synthetase (GS) in response to dexamethasone was established by cultivation in glutamine-free, glutamate-supplemented culture medium. Using this cell line, conditioned medium produced by periportal hepatocytes in primary culture was found to suppress this induction, acting with a lag-phase of about 8 h irrespective whether the GS activity was basal or preinduced. Analysis of the response of several epithelial cell lines to the conditioned medium showed a reciprocal relationship between the dexamethasone-dependent induction and the residual activity after exposure to the conditioned medium, indicating that a hypothetical factor in the conditioned medium was interfering with the induction process but not with the basal GS level of these cells. Careful analysis revealed that the effect of the conditioned medium was neither due to deficiency of a component used up by the hepatocytes, nor due to glutamine or ammonia, both of which affected GS activity at concentrations above 0.5 mmol/L. The hypothetical factor was found to be quite small (molecular mass range 100-500 Da), heat and acid stable, as well as highly water soluble. Most interestingly, the conditioned medium did not suppress GS induction in astroglial cells and in the two hepatoma cell lines C2 and FAO, but strongly diminished the spontaneous induction of GS in cocultured pig hepatocytes, suggesting that the hypothetical factor acts primarily on normal nontransformed liver-derived cell populations.
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PMID:Conditioned medium from cultured rat hepatocytes completely blocks induction of glutamine synthetase by dexamethasone in several rat liver epithelial cell lines. 953 46

The aryl hydrocarbon receptor (AhR) is a ligand-activated transcription factor in eukaryotic cells that alters gene expression in response to the environmental contaminant 2,3,7, 8-tetrachlorodibenzo-p-dioxin (TCDD). In 5L hepatoma cells, TCDD induces a G1 cell cycle arrest through a mechanism that involves the AhR. The retinoblastoma tumor suppressor protein (pRb) controls cell cycle progression through G1 in addition to promoting differentiation. We examined whether the human AhR or its dimerization partner, the AhR nuclear translocator, interacts with pRb as a basis of the TCDD-induced cell cycle arrest. In vivo and in vitro assays reveal a direct interaction between pRb and the AhR but not the AhR nuclear translocator protein. Binding between the AhR and pRb occurs through two distinct regions in the AhR. A high affinity site lies within the N-terminal 364 amino acids of the AhR, whereas a lower affinity binding region colocalizes with the glutamine-rich transactivation domain of the receptor. AhR ligand binding is not required for the pRb interaction per se, although immunoprecipitation experiments in 5L cells reveal that pRb associates preferentially with the liganded AhR, consistent with a requirement for ligand-induced nuclear translocation. These observations provide a mechanistic insight into AhR-mediated cell cycle arrest and a new perspective on TCDD-induced toxicity.
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PMID:A direct interaction between the aryl hydrocarbon receptor and retinoblastoma protein. Linking dioxin signaling to the cell cycle. 971 1

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