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 bovine serum albumin (bSA) promoter has been cloned from bovine genomic DNA using the polymerase chain reaction. In common with other albumin promoters, this promoter functions efficiently in the differentiated rat hepatoma cell line H4II and not in the its dedifferentiated derivative, H5. Analysis of 5' deletions of the bSA promoter after transient transfection into H4II has revealed that a short construct containing the HNF1 binding site and TATA box functions efficiently but requires the presence of the more upstream sequences to achieve full activity Footprint analysis of the promoter reveals seven sites of DNA protein interaction extending from -31 to -213. One of these sites, extending from -170 to -236, whose deletion results in a four fold increase in promoter activity. This site has not previously been reported in other albumin promoters and is bound by the C/EBP-like family of proteins.
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PMID:Isolation and functional analysis of the promoter of the bovine serum albumin gene. 754 56

The oncodevelopmentally regulated alpha-fetoprotein (AFP) gene offers a very good model system to better understand the molecular mechanisms which dictate the specificity of gene expression in liver and control its tight modulation in the course of development and carcinogenesis. Transcription factors of the CCAAT/enhance-binding protein (C/EBP), hepatocyte nuclear factor-1 (HNF-1), and nuclear factor-1 (NF-1) families can bind in vitro to the promoter of the rat AFP gene, which makes the expression of the AFP gene specific to the liver. We have evaluated the influence of some of these factors on the activity of the AFP promoter by transfection of HepG2 hepatoma cells with the appropriate expression vector plus a CAT plasmid under the control of the AFP promoter. A similar plasmid bearing the rat albumin promoter was used as a control. C/EBP alpha, and C/EBP beta acted as transactivators on the AFP promoter, while LIP, a truncated form of C/EBP beta, was a potent negative regulator of the promoter. Interestingly, HNF-1 beta was found to be more potent than HNF-1 alpha in activating the AFP promoter in the HepG2 cells. This effect was highly promoter and cell specific since it did not occur with the rat albumin promoter or in Chinese hamster ovary cells. HNF-1 beta, which is produced earlier than HNF-1 alpha during liver development, would thus have the greater influence on the AFP promoter in early development. Our results pointed to a key role that NF1 might play in the functioning of the AFP promoter. Indeed, overexpression of NF1 induced a specific decrease in the activity of the AFP promoter. Competition between NF1 and HNF-1 for binding to their overlapping binding sites on the AFP promoter would be critical for modulating its activity.
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PMID:[Several transcription factors participate in the functioning of the alpha-fetoprotein gene promoter]. 754 16

Two members of the C/EBP family of basic region-leucine zipper proteins enriched in the liver, C/EBP (C/EBP alpha) and CRP2 (C/EBP beta), were previously shown to transactivate the albumin promoter in a cell type-dependent manner. These proteins function efficiently in HepG2 hepatoma cells, but inefficiently in HeLa (epithelial) and L (fibroblastic) cells. Here we have investigated the mechanism for cell-specific control of CRP2 activity. We show that CRP2 contains a negative regulatory region composed of two elements, RD1 and RD2. Deletions of RD2 relieve the inhibition of CRP2 activity in L cells, but do not affect CRP2 function in HepG2 cells. These deletions also increase the DNA binding activity of CRP2 approximately 3-fold, suggesting that RD2-mediated repression of DNA binding activity is responsible for CRP2 inhibition in L cells. The adjacent RD1 element functions independently of RD2 and modulates the CRP2 activation domain, which we show to be composed of three subdomains that are conserved within the C/EBP protein family. RD1 does not affect cell type specificity, but inhibits the transactivation potential of GAL4-CRP2 hybrid proteins by 50-fold. These findings suggest that CRP2 assumes a tightly folded conformation in which the DNA binding and activation domains are masked by interactions with the regulatory domain and that to function efficiently in HepG2 cells the protein must undergo an activation step. We propose that relief of inhibition conferred by the regulatory domains also accounts for CRP2 activation in response to extracellular signals.
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PMID:CRP2 (C/EBP beta) contains a bipartite regulatory domain that controls transcriptional activation, DNA binding and cell specificity. 762 30

The promoter regions of three IL-6 inducible genes, hemopexin (Hpx), haptoglobin (Hp) and C-reactive protein (CRP) contain cis-acting IL-6 responsive elements (IL-6REs) which are necessary and sufficient to induce IL-6 transcription activation. Transcription factors of the C/EBP family interact with IL-6REs. Among these, IL-6DBP/NF-IL6 plays a key role in IL-6 signal transduction because its trans-activation potential is induced by IL-6 in the human hepatoma cell line Hep3B. We show here that a different C/EBP-related factor, C/EBP delta/NF-IL6 beta, is the major IL-6 induced protein interacting with IL-6REs in the nuclei of Hep3B cells. In contrast to IL-6DBP/NF-IL6, whose activity in Hep3B cells is modulated by IL-6 via a post-translational mechanism, C/EBP delta/NF-IL6 beta is transcriptionally induced by IL-6. Another contrasting feature is that the C/EBP delta cDNA transfected in Hep3B cells activates transcription from an IL-6RE synthetic promoter in a constitutive manner which is not further enhanced by IL-6. Therefore, in Hep3B cells, two distinct members of the C/EBP family are recruited in the IL-6 signal transduction pathway via different mechanisms.
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PMID:The two C/EBP isoforms, IL-6DBP/NF-IL6 and C/EBP delta/NF-IL6 beta, are induced by IL-6 to promote acute phase gene transcription via different mechanisms. 768 Jan 15

C/EBP is a sequence-specific DNA-binding protein. In order to identify its distribution and localization, immunohistochemical technique (ABC method) was done using anti-C/EBP polypeptide antibodies 1103#, 425# in liver specimens from 20 normal adults, 5 neonates, 6 patients with hepatitis, 25 with liver cirrhosis, 80 with hepatocellular carcinoma (40 cases were associated with surrounding nontumorous tissues) and 26 patients with cholangiocarcinoma (15 cases were associated with surrounding nontumorous tissues). The results showed that C/EBP was diffusely distributed in nuclei and cytoplasm of differentiated liver cells and very low or undetectable in liver cancer cells. The manifestation of C/EBP correlated with degree of differentiation of tumour cells, and was obviously weaker than that in surrounding nontumorous tissues. C/EBP positive staining has also been found in regenerating epithelial cells of bile ductules. The results suggested that C/EBP should play an important role in establishing and maintaining the differentiation of liver cells.
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PMID:Immunohistochemical demonstration of CCAAT/enhancer binding protein (C/EBP) in human liver tissues of various origin. 780 44

The human MDR3 (or MDR2) P-glycoprotein is probably involved in the transport of phospholipids from liver hepatocytes into bile (Smit et al. (1993) Cell 75, 451-462). In accordance with this function, MDR3 is highly expressed in human liver, but lower mRNA levels were also found in adrenal, heart, muscle and cells of the B-cell compartment. We have cloned and analyzed the MDR3 promoter region. It is GC-rich, and contains neither a TATA nor a CAAT box, but it does contain multiple putative SP1 binding sites, features also found in so-called housekeeping genes. RNase protection and primer extension analyses indicate that the MDR3 gene has multiple transcription start sites in a GC-rich region with considerable homology to the putative mouse mdr2 promoter. A 3 kb genomic fragment containing the MDR3 start sites directs transcription of a chloramphenicol acetyltransferase (CAT) reporter gene upon transient transfection in the human hepatoma cell line HepG2. This transcription is orientation dependent, and stimulated by a SV40 enhancer, indicating that the 3 kb insert contains the core promoter elements of the MDR3 gene. The promoter region contains several consensus sequences where known or putative liver-specific (C/EBP, HNF5) or lymphoid specific (Pu.1, ets-1) transcription factors may bind.
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PMID:Characterization of the promoter region of the human MDR3 P-glycoprotein gene. 789 60

C-reactive protein is a serum acute-phase reactant that increases several thousand-fold in concentration during inflammation in most mammals. However, mouse C-reactive protein is considered to be a minor acute-phase reactant, since its blood level increases only from approx. 0.1 to 1-2 micrograms/ml. A mouse genomic clone of approximately 5 kb was obtained to determine the molecular basis for the regulation of the expression of mouse C-reactive protein. Several cis-acting elements in the 5' flanking region that potentially regulate transcription were identified: two glucocorticoid-responsive elements, two CCAAT-enhancer-binding protein C (C/EBP) consensus elements that are required for the interleukin-1 responsiveness of some acute-phase reactant genes, an interleukin-6-responsive element, two hepatocyte nuclear factor-1 (HNF-1) elements and a single heat-shock element. Transfection of the hepatoma cell line Hep 3B.2 with a pCAT expression vector containing the 5' flanking sequence from -1083 to -3 bp from the transcriptional start site, and truncations of this sequence, localized elements that control the tissue-specific expression of mouse C-reactive protein to the two HNF-1 elements and a C/EBP, interleukin-1-responsive element located between -220 and -153, and -90 and -50 bp from the transcriptional start site. A constitutive nuclear protein from mouse-liver hepatocytes specifically binds to the HNF-1 elements. These findings explain the tissue-specific expression of the gene, as well as its limited expression during the acute-phase response.
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PMID:Cloning and tissue-specific expression of the gene for mouse C-reactive protein. 791 20

A 268-base pair 5' distal fragment, SX2, which mediates basal level and inducer-dependent activation of the mouse heme oxygenase-1 gene, contains two activator protein-1 (AP-1) binding sites (Alam, J., and Zhining, D. (1992) J. Biol. Chem. 267, 21894-21900). Mutation of both AP-1 binding elements diminishes (by 50-70%), but does not abolish, the enhancer activity of SX2 in transient expression assays, suggesting that other sequences contribute to enhancer function. Directly upstream of the AP-1 binding sites are two copies of a sequence motif, TGAGGAAAT, which resemble elements found in cellular and viral genes that are known to interact with the CCAAT/enhancer-binding protein (C/EBP) family of transcription factors. These SX2 sequences bind specifically to liver-enriched, heat-stable nuclear proteins and confer C/EBP alpha-dependent transactivation of the heterologous chloramphenicol acetyltransferase (CAT) gene. Site-directed mutagenesis of these 9-base pair elements abolishes protein binding and transactivation, establishing these sequences as functional C/EBP binding sites. Stably transfected SX2/CAT fusion genes are induced between 37- and 44-fold in mouse hepatoma, Hepa, cells and between 52- and 111-fold in mouse fibroblast L929 cells in response to CdCl2 treatment. Subfragments of SX2 lacking the AP-1 binding elements do not mediate cadmium-dependent activation of the CAT gene, whereas subfragments containing the AP-1 binding elements, but lacking the C/EBP binding sites, exhibit only partial transcriptional activity. Site-directed mutagenesis of one or more of the C/EBP and AP-1 binding sites indicates that each of these elements is required for optimal activity of the SX2 enhancer fragment. The AP-1 binding elements, however, appear to be more important for induction as constructs containing multiple copies of either of the AP-1 binding elements, but not the C/EBP binding sequences, are readily activated by CdCl2. Treatment of Hepa cells with cadmium or heme does not alter the nuclear concentration of AP-1 or C/EBP binding activity.
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PMID:Multiple elements within the 5' distal enhancer of the mouse heme oxygenase-1 gene mediate induction by heavy metals. 792 91

To study the transcriptional regulation of the liver gluconeogenic phenotype, the underdifferentiated mouse Hepa-1c1c7 (Hepa) hepatoma cell line was used. These cells mimicked the fetal liver by appreciably expressing the alpha-fetoprotein and albumin genes but not the phosphoenolpyruvate carboxykinase (PEPCK) gene. Unlike the fetal liver, however, Hepa cells failed to express the early-expressed factors hepatocyte nuclear factor 1 alpha (HNF-1 alpha) and HNF-4 and the late-expressed factor C/EBP alpha, thereby providing a suitable system for examining possible cooperation between these factors in the transcriptional regulation of the PEPCK gene. Transient transfection assays of a chimeric PEPCK-chloramphenicol acetyltransferase construct showed a residual PEPCK promoter activity in the Hepa cell line, which was slightly stimulated by cotransfection with a single transcription factor from either the C/EBP family or HNF-1 alpha but not at all affected by cotransfection of HNF-4. In contrast, cotransfection of the PEPCK construct with members from the C/EBP family plus HNF-1 alpha resulted in a synergistic stimulation of the PEPCK promoter activity. This synergistic effect depended on the presence in the PEPCK promoter region of the HNF-1 recognition sequence and on the presence of two C/EBP recognition sequences. The results demonstrate a requirement for coexistence and cooperation between early and late liver-enriched transcription factors in the transcriptional regulation of the PEPCK gene. In addition, the results suggest redundancy between members of the C/EBP family of transcription factors in the regulation of PEPCK gene expression.
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PMID:Transcriptional regulation of the phosphoenolpyruvate carboxykinase gene by cooperation between hepatic nuclear factors. 793 27

Angiotensinogen is a serum glycoprotein which is primarily synthesized in the liver and converted into the octapeptide hormone angiotensin-II in circulation. Transient transfection studies have identified a cis-acting DNA element located between 115 and 145 bp upstream from the transcriptional initiation site in the promoter of the rat angiotensinogen gene which is involved in the regulation of its transcription. This region of the promoter has sequence homology with NF-1/CCAT, C/EBP, and CP1 binding sites. We show here by DNase-I footprint and gel shift assay in presence of recombinant transcription factors and their antibodies that NF-1/CAAT and C/EBP like transcription factors bind to this region of the promoter. Our DNase footprint assay with recombinant NF-1/CAAT has also identified another NF-1 binding site between -180 and -190. Since our previous studies have identified a NF-1 site in the proximal promoter region and two C/EBP binding sites in the distal promoter region of the angiotensinogen gene, our data suggests that multiple CAAT binding factors regulate the expression of the angiotensinogen gene in liver cells. In accordance with these results, we show that cotransfection of mammalian expression vectors containing NF-1/CAAT or C/EBP coding sequence increases the promoter activity of the angiotensinogen gene in human hepatoma cells.
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PMID:Multiple CCAAT binding proteins regulate the expression of the angiotensinogen gene. 795 12

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