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)

C/EBP is a sequence-specific DNA-binding protein. In order to identify its distribution, localization and function in liver specimens from 18 normal adult, 5 neonates and 79 hepatocellular carcinoma patients (40 cases associated with surrounding nontumorous tissues), immunocytochemical studies (ABC method) were performed by using anti-C/EBP polypeptide antibodies 1103#, 425#. Northern blot using synthesized C/EBP cDNA probe in liver tissues of 3 normal adult, one neonate and 10 hepatocellular carcinoma tissues (8 cases were associated with surrounding nontumorous tissues) were also studied. The results of immunocytochemical staining 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 expression of C/EBP was in proportion to the degree of tumor cell differentiation and was much less than in the nontumorous surrounding tissues. C/EBP positive staining has also been found in the regenerating epithelial cells of bile ductules. Northern blot examination matched closely with the immunocytochemical examination. The results suggest that C/EBP may play an important role in establishing and maintaining the differentiation of liver cells and may exert an inhibiting effect against transformation of liver cells and proliferation of neoplastic tissue.
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PMID:[Determination and significance of C/EBP in hepatoma and various liver tissues]. 795 53

Mouse serum amyloid A proteins (SAA) are encoded by multiple genes and the expression of these SAA genes is highly induced during inflammation. We demonstrate that the expression of one of SAA genes (SAA3) is induced by interleukin-1 (IL-1), and that other inflammatory cytokines such as IL-6 and leukemia inhibitory factor, while they themselves are without any effects, enhanced IL-1 induced SAA3 gene expression. The results of mutational analysis on the SAA3 promoter indicate that both the NF-kappa B and C/EBP transcription factor-binding motifs are essential for cytokine-induced SAA3 gene expression in Hep3B cells. To study further roles of NF-kappa B and C/EBP transcription factor family members in SAA3 gene activation, expression vectors for NF-kappa B subunits (p50 and p65) and C/EBP family members (C/EBP-alpha and NFIL-6, also called C/EBP-beta) were co-transfected into Hep3B hepatoma and F9 embryonic carcinoma cells. The results show that, while the expression of p65 alone strongly transactivated a SAA3 gene, p50 did not induce a significant transactivation, and NFIL-6 and C/EBP-alpha induced only a marginal transactivation when expressed alone. However, the co-expression of p50 or p65 with C/EBP family members did result in the efficient induction of SAA3 gene expression, indicating that the synergy between NF-kappa B and C/EBP transcription factor families is essential for SAA3 gene expression during inflammation.
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PMID:NF-kappa B and C/EBP transcription factor families synergistically function in mouse serum amyloid A gene expression induced by inflammatory cytokines. 795 7

CCAAT/enhancer-binding proteins (C/EBPs) comprise a homologous group of transcriptional regulators that control liver and fat differentiation and are involved in regulating the expression of acute phase reactants during the host response to inflammation. GADD153, a unique member of the C/EBP family, has been proposed to act as a dominant negative inhibitor of other C/EBPs, but little is known about its expression in liver or its role in the processes described above. We have examined its expression during the acute phase response (APR) and have shown that like C/EBP beta and C/EBP delta, GADD153 mRNA is markedly induced in livers of rats treated with lipopolysaccharide to initiate the APR. Interestingly, its induction is temporally delayed relative to that of C/EBP beta and C/EBP delta but is similar to that of acute phase reactants shown to be regulated by C/EBPs. Footprint analysis of the GADD153 promoter showed binding of proteins in liver extracts of both untreated and lipopolysaccharide-injected rats to a putative C/EBP regulatory site. Gel shift analysis showed that although present constitutively, binding activity was increased in extracts from lipopolysaccharide-treated animals. Both C/EBP alpha and C/EBP beta were shown to contribute to the binding activity with the contribution by C/EBP beta increasing during the APR. Support for the functional role of this C/EBP-binding site and its interaction with C/EBPs in regulating GADD153 expression was obtained with cultured HepG2 hepatoma cells in which overexpression of C/EBP beta was found to transactivate expression of a plasmid containing the GADD153 promoter linked to a reporter gene. These findings suggest that the GADD153 gene is itself regulated by C/EBPs during the host response to inflammation and that GADD153 is likely to contribute to the regulation of other genes whose expression is altered during the APR.
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PMID:Induction of GADD153, a CCAAT/enhancer-binding protein (C/EBP)-related gene, during the acute phase response in rats. Evidence for the involvement of C/EBPs in regulating its expression. 778 52

Expression of the acute-phase response genes, such as that for alpha-1 acid glycoprotein (AGP), involves both positive and negative transcription factors. A positive transcription factor, AGP/EBP, and a negative transcription factor, factor B, have been identified as the two most important factors responsible for the induction of the AGP gene. In this paper we report the purification, characterization, and identification of a B-motif-binding factor from the mouse hepatoma cell line 129p. The purified factor has been identified as nucleolin by amino acid sequence analysis. Biochemical and functional studies further established that nucleolin is a transcription repressor for regulation of AGP and possibly other acute-phase response genes. Thus, in addition to the many known functions of nucleolin, such as rRNA transcription, processing, ribosome biogenesis, and the shuttling of proteins between the cytoplasmic and nuclear compartments, it may also function as a transcriptional repressor.
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PMID:Purification and characterization of nucleolin and its identification as a transcription repressor. 806 40

Liver-selective transcription of the gene for rat arginase, an ornithine cycle (urea cycle) enzyme, is induced by glucocorticoids in a delayed secondary manner; the mRNA induction by the hormones requires de novo protein synthesis, and is preceded by a time lag of several hours. We searched for a DNA element mediating the glucocorticoid induction of the arginase gene with a transient transfection system using hepatoma cell lines. Within the 233-base pair region that is located 11 kilobases downstream from the transcription start site and that spans the junction of intron 7 and exon 8, we detected an enhancer element that is glucocorticoid-responsive and hepatoma cell-selective. The time course of the glucocorticoid induction through this enhancer element was delayed compared to that through the primary glucocorticoid-responsive mouse mammary tumor virus promoter. Footprint analysis revealed four protein-binding sites in this enhancer region. In gel retardation analysis, each site exhibited a complicated profile characterized by a number of shifted bands, some of which were tissue-selective and others ubiquitous. Gel shift competition and antibody supershift/inhibition analysis demonstrated that two of the four sites are recognized by members of the CCAAT/enhancer binding protein (C/EBP) family, some of which are liver-enriched.
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PMID:The delayed glucocorticoid-responsive and hepatoma cell-selective enhancer of the rat arginase gene is located around intron 7. 858 32

The gene for phosphoenolpyruvate carboxykinase (GTP) (EC 4.1.1.32) (PEPCK) is expressed in a tissue-specific manner in the liver, kidney, and adipose tissue and is regulated by hormones including cAMP and insulin. Previous studies have shown that the CCAAT/enhancer-binding protein alpha (C/EBP alpha) binds to several sites on the PEPCK promoter and activates transcription from the promoter in hepatoma cells. Here, we report that a second member of the C/EBP family, C/EBP beta, bound to the same sites on the PEPCK promoter. However, C/EBP beta stimulated transcription primarily through the cAMP-responsive element (CRE), which maps between positions -77 to -94, but not at the more 5'-binding sites. In addition, the nuclear factor-1 site, which is immediately adjacent to the CRE in the PEPCK promoter, was also required for the full response of the promoter to cotransfected C/EBP beta. In gel mobility assays, antibodies to both C/EBP beta and the cAMP regulatory element-binding protein (CREB), but not to C/EBP alpha, "supershifted" DNA-protein complexes formed between a synthetic CRE oligomer and proteins prepared from rat liver nuclei. C/EBP beta mRNA was expressed at low levels in both the periportal and pericentral regions of the liver lobule, whereas expression of the gene for C/EBP alpha was confined to the pericentral region of the liver lobule. PEPCK gene transcription is greatest in the periportal region of the liver. CREB also bound to the CRE and stimulated transcription of a PEPCK-CAT vector in the presence of an expression vector for the catalytic subunit of protein kinase A. C/EBP beta and CREB bound to the CRE with similar affinities, both of which were greater than the affinity of C/EBP alpha. Within 90 min after the administration of dibutyryl cAMP to rats, there was a marked increase in the hepatic concentration of C/EBP beta mRNA and a decrease in the level of mRNA for C/EBP alpha. These studies indicate that C/EBP beta can regulate PEPCK gene transcription by acting through the CRE and that C/EBP beta, together with CREB, may contribute to the cAMP responsiveness of the PEPCK promoter.
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PMID:Relative roles of CCAAT/enhancer-binding protein beta and cAMP regulatory element-binding protein in controlling transcription of the gene for phosphoenolpyruvate carboxykinase (GTP). 809 46

Hepatitis B viruses (hepadnaviruses) can cause chronic, productive infections of hepatocytes. Analyses of the enhancers and promoters of these viruses in cell lines have suggested a requirement of these elements for liver-enriched transcription factors. In this study, a minimum of seven factor-binding sites on the duck hepatitis B virus enhancer were detected by DNase I footprinting using duck liver nuclear extracts. Among the sites that were tentatively identified were one C/EBP-, one HNF1-, and two HNF3-binding sites. Mutations of the HNF1- and HNF3-like sites, which eliminated factor binding, as assessed by both DNase I footprinting and competitive gel shift assays, were evaluated for their effects on enhancer activity. Using a construct in which human growth hormone was expressed from the viral enhancer and core gene promoter, we found that all of the mutations, either alone or in combination, reduced expression two- to fourfold in LMH chicken hepatoma cells. The mutations in the HNF1 site and one of the HNF3 sites, when inserted into the intact viral genome, also suppressed virus RNA synthesis in primary hepatocyte cultures. Virus carrying the latter HNF3 mutation was also examined for its ability to infect and replicate in ducks. No significant inhibition of virus replication was observed in a short-term assay; however, virus with the HNF3 mutation was apparently unable to grow in the pancreas, a second site of duck hepatitis B virus replication in the duck.
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PMID:Identification of factor-binding sites in the duck hepatitis B virus enhancer and in vivo effects of enhancer mutations. 813 13

Although it contains binding sites for HNF1, NFY and C/EBP/DBP, the proximal promoter of the aldolase B gene is surprisingly weak when tested by transient transfection in differentiated hepatoma cells. This low activity could be due to overlapping between HNF1 and HNF3 binding sites in element PAB, from -127 to -103 bp with respect to the cap site. Replacement of the PAB region by a consensus HNF1 binding site unable to bind HNF3, results in a 30 fold activation of the promoter, in accordance with the hypothesis that activity of the wild-type promoter is normally restrained by HNF3 binding to PAB competitively with HNF1. Consistently, transactivation of the wild-type promoter by excess HNF1 is very high, most likely due to the displacement of HNF3, while the construct with the exclusive HNF1 binding site is weakly transactivated by HNF1. The inhibitory effect of HNF3 on HNF1-dependent transactivation is clearly due to competition between these two factors for binding to mutually exclusive, overlapping sites; indeed, when HNF1 and HNF3 sites are contiguous and not overlapping, the resulting promoter is as active as the one containing an exclusive HNF1 binding site. A construct in which PAB has been replaced by an exclusive HNF3 binding site is weakly expressed and is insensitive to HNF3 hyperexpression. DBP-dependent transactivation, finally, is independent of the nature of the element present in the PAB region.
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PMID:Activity of the rat liver-specific aldolase B promoter is restrained by HNF3. 816 39

C/EBP, a heat-stable DNA-binding protein, play a very important role in establishing and maintaining the differentiation state of liver cells as a transcription factor enriched in the liver. In order to identify its distribution, localization and function, immunocytochemical examination (ABC method) was done by using anti-C/EBP polypeptide antibodies 1103#, 425# in 20 normal human adult liver tissues, 5 neonatal liver tissues, 6 hepatitis tissues, 25 liver cirrhosis tissues, 80 hepatocellular carcinoma tissues (40 cases with associated surrounding non-tumor hepatic tissues) and 26 cholangiocarcinoma tissues (15 cases with associated surrounding non-tumor tissues). The results showed that C/EBP expression was restricted to terminally differentiated liver cells, and was very low or undetectable in poorly differentiated liver cells, such as liver tumor cells. Its expression also correlated with the grading of hepatocellular carcinoma. Besides, positive C/EBP stain could be found in all regenerating bile ductules. The C/EBP has a diffuse distribution which could be detected both in nuclei and in cytoplasm, but more abundant in cytoplasm. The results are in accordance with the concept that C/EBP plays an important role in establishing and maintaining the differentiation state of liver cells.
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PMID:[Determination on of C/EBP in human liver cancer, normal adult liver and various diseased liver tissues]. 817 74

Hemopexin (Hx) is an abundant acute-phase protein (APP) that binds heme with high affinity. In rat hepatic cells, the transcription rate of the Hx gene is increased by interleukin (IL)-1 and IL-6. To investigate the cis-acting regulatory elements (REs) responsive to these hormones, chloramphenicol acetyltransferase constructs of rat and human Hx gene sequences were tested in transiently transfected hepatoma cells. An IL-6-RE was identified in the promoter of both rat and human Hx genes, the function of which was dependent on the core sequence (CCGGGAA) common in other APP genes. The previously characterized Hx A element mediated a relatively minor cytokine response as compared with the Hx IL-6-RE. The human Hx A element, in contrast to the rat and human Hx IL-6-REs, was strongly trans-activated by cotransfected CAAT enhancer-binding proteins (C/EBP)-beta and -delta. The rat gene homolog of the human Hx A element was inactive as a cytokine RE and was minimally trans-activated by C/EBP isoforms. Results of electrophoretic mobility shift assays indicated that the Hx IL-6-RE is a binding site for the IL-6-inducible nuclear protein IL-6 RE-BP, which also binds to the conserved IL-6-REs of other APP genes and is distinct from C/EBP beta.
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PMID:The rat and human hemopexin genes contain an identical interleukin-6 response element that is not a target of CAAT enhancer-binding protein isoforms. 817 75

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