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 mouse alcohol dehydrogenase gene, Adh-1, is expressed in a tissue-specific manner. We examined the promoter activity of a series of 5' deletions extending from bp -473 to -47 and demonstrated that there are positive regulatory elements between bp -229 and +54 and a negative regulatory element between bp -323 and -229. To identify the sequence of the negative regulatory element, gel retardation and DNase I footprint assays were performed using nuclear proteins from mouse liver and from a hepatoma cell line, H4IIE-C3. A specific protein-binding site covered bp -324 and -297. Within this region, we identified sites of close protein-DNA contact by methylation interference assays, located in the sequence TGGAAGTTTCAGGTT (nt -316 to -302). Site-directed mutagenesis of four protein-DNA contact sites within this sequence eliminated the specific protein-DNA binding, assayed by gel retardation, and restored expression of Adh-1 in transient transfection assays to the levels seen when the entire region containing the negative element was deleted. Thus, we have identified a negative regulatory element within the Adh-1 promoter. No homology was found between this negative element and other regulatory elements, suggesting that this is a novel negative element.
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PMID:A novel negative element in the promoter of the mouse alcohol dehydrogenase gene Adh-1. 848 90

The antagonistic effect of cAMP on the insulin-induced expression of fatty acid synthase (FAS) in liver could be mimicked in vitro using H4IIE hepatoma cells, both by measuring the response of the endogenous FAS gene and by assaying expression of transfected reporter genes containing promoter elements of the FAS gene. 5'-Deletion analysis and replacement mutagenesis revealed that an essential element required for cAMP antagonism of the insulin effect is an inverted CCAAT box located between nucleotides -99 and -92. DNase I foot-printing and gel shift analysis revealed that this region can bind a protein present in nuclei of liver and spleen, organs that express high and undetectable levels of FAS, respectively. This protein is not a CCAAT/enhancerbinding protein, C/EBP. Thus, the FAS gene appears unusual in that the sequence element required for transcriptional regulation by cAMP is neither a cAMP response element (CRE) nor a binding site for AP-1, AP-2, or C/EBP. These results suggest that essential to the regulation of FAS transcription by cAMP is the interaction of an inverted CCAAT box motif with a constitutively produced trans-acting factor that either itself undergoes modification in response to cAMP or associated with a protein that is produced or modified by cAMP exposure.
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PMID:Identification of an inverted CCAAT box motif in the fatty-acid synthase gene as an essential element for modification of transcriptional regulation by cAMP. 856 94

Blood coagulation Factor X and its activated form Factor Xa play an essential role in the midphase of the clotting cascade. To delineate the mechanisms governing the liver-specific expression of Factor X, we have previously characterized the complete 2.8 kilobase pairs of the 5'-flanking region of Factor X and demonstrated that the first 209 base pairs is sufficient to confer maximal promoter activity in HepG2 cells, a hepatoma cell line that expresses Factor X. We have also shown that mutations at ACTTTG and CCAAT elements located at -56 to -51 and -120 to -116, respectively, significantly reduce the promoter activity. In this report, we demonstrate that Factor X mRNA is primarily but not exclusively expressed in the liver. Using DNase I footprinting analysis, we determine four protein binding sites within the 209-base pair fragment, designated site 1 (-73) to -44), site 2 (-128 to -94), site 3 (-165 to -132), and site 4(-195 to -169). Using gel mobility shift assays in combination with competition and supershift experiments, we demonstrate that hepatocyte nuclear factor 4 and Sp1 bind at site 1, the site which contains the ACTTTG element. Methylation interference assays reveal that HNF-4 and Sp1 contact adjacent sites with minor overlap. HNF-4 and Sp1 appear to bind site 1 in a mutually exclusive fashion. We also demonstrate that HNF-4 can transactivate the Factor X promoter in HeLa cells; mutation at the adjacent Sp1 site further increases the transactivation. Heteromeric transcription factor NF-Y was identified as the protein that binds the CCAAT box at site 2. We conclude that HNF-4 and NF-Y play crucial roles in modulating the activity of the proximal promoter of Factor X.
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PMID:Liver-enriched transcription factor HNF-4 and ubiquitous factor NF-Y are critical for expression of blood coagulation factor X. 856 96

Expression of the phenylalanine hydroxylase gene in livers and kidneys of rodents is activated at birth and is induced by glucocorticoids and cyclic AMP in the liver. Regulatory elements in a 10-kb fragment upstream of the mouse gene have been characterized. The promoter lacks TAATA and CCAAT consensus sequences and shows only extremely weak activity in transitory expression assays with phenylalanine hydroxylase-producing hepatoma cells. No key elements for regulation of promoter activity are localized within 2 kb of upstream sequences. However, a liver-specific DNase I-hypersensitive site at kb -3.5 comprises a tissue-specific and hormone-inducible enhancer. This enhancer contains multiple protein binding sites, including sites for ubiquitous factors (NF1 and AP1), the glucocorticoid receptor, and the hepatocyte-enriched transcription factors hepatocyte nuclear factor 1 (HNF1) and C/EBP. Mutation revealed that the last two sites are critical not only for basal activity but also for obtaining a maximal hormone response. Efficient transcription from the highly inducible promoter shows absolute dependence upon the enhancer at kb - 3.5, which in turn requires HNF1 and C/EBP as well as hormones. The regulatory region of the mouse phenylalanine hydroxylase gene differs totally from that of humans, even though the genes of both species are expressed essentially in the liver. Furthermore, the phenylalanine hydroxylase gene of mice shows an expression pattern very similar to those of the rodent tyrosine aminotransferase and phosphoenolpyruvate carboxykinase genes, yet each shows a different organization of its regulatory region.
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PMID:The activity of the highly inducible mouse phenylalanine hydroxylase gene promoter is dependent upon a tissue-specific, hormone-inducible enhancer. 864 24

The gene for fatty acid synthase (FAS), which contains both GC-rich sequences and a TATA box in its promoter region, is expressed in a tissue-specific manner in response to developmental, nutritional and hormonal signals. Here we report the identification of sequence elements in the 5'-flanking region responsible for modulation of basal promoter activity. Transient transfection of H4IIE hepatoma cells and 3T3-30A5 preadipocytes with plasmids containing the chloroamphenicol acetyltransferase gene driven by FAS promoter sequences of different lengths revealed that two regions between nucleotides -249 and -30 contain elements capable of enhancing transcription. One of these positive regulatory elements was localized to nucleotides -241/-236 using DNase I footprinting, electrophoretic mobility-shift assays and mutagenesis. The sequence element is a typical GC box and the nuclear protein binding to this region appears immunochemically indistinguishable from Sp1. The second positive regulatory element, an inverted CCAAT box, was localized to nucleotides -98/-92 by electrophoretic mobility-shift assays and mutagenesis. A putative negative regulatory element, initially identified by reporter gene transfection experiments, was localized between nucleotides -319 and -301 by DNase I footprinting, electrophoretic mobility-shift assays and deletion mutagenesis; this region consists of 78% G residues. In conclusion, initiation of FAS transcription from a single start site is enhanced by the presence of an adjacent TATA motif, an inverted CCAAT box and an upstream binding site for the transcription factor Sp1; further modulation of transcription is achieved through complex interactions between these promoter elements and an upstream negative regulatory element.
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PMID:Transcriptional regulation of the rat fatty acid synthase gene: identification and functional analysis of positive and negative effectors of basal transcription. 869 72

Transferrin (Tf), the iron-transport protein, plays an essential role in the central nervous system development, plasticity, and aging. As a first step toward elucidating the role of each transcription factor involved in the regulation of Tf gene expression, we have recently shown that similar promoter elements direct cell-type specific transcription in oligodendrocytes, epithelial choroid plexus cells, and in the neuronal cell line B103. Here we have analyzed the regulatory elements that control the level of expression of the Tf gene in neuronal cells. Transient expression experiments in B103 cells revealed that the -164/+1 promoter region is stimulated by a position-dependent -1140/-1000 upstream region. DNase I footprinting, gel retardation assays, and antibody reactivity data allowed us to characterize the nuclear factors interacting with this region. The upstream region I-binding protein (URI-BP) belongs to the steroid/retinoid receptor family, while URII-BP is a member of the nuclear factor I (NF-I) family. Interestingly, no enhancer nor silencer activity is detected in B103 cells. This contrasts with our findings in hepatoma cells, where the activity of the -125/+1 promoter can be repressed by a -1000/-819 upstream negative-acting region and stimulated by the -3600/-3300 enhancer. We demonstrate that the negative-acting region presents the characteristics of a silencer that interacts with a nuclear protein present in liver and absent in B103 cells. Similarly, B103 cells lack a nuclear protein able to bind to an essential site of the enhancer. This shows that in B103 cells, the inactivity of the silencer and the enhancer regions results from the absence of at least one essential nuclear protein.
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PMID:Distinct positive and negative regulatory elements control neuronal and hepatic transcription of the human transferrin gene. 871 15

Cytochromes P450 2B1 and 2B2 (CYP2B1 and CYP2B2) are well-known phenobarbital-inducible genes in rat liver. Potential transcriptional regulatory elements in the proximal promoter regions of rat CYP2B genes were analyzed by transfection in HepG2 hepatoma cells and by binding of nuclear proteins. Deletion of sequences from -1,400 to -110 had modest effects on promoter activity, but further deletion to -57 decreased the transcriptional activity by more than 90%, suggesting the presence of strong cis-acting elements in this region. Sequences similar to a basal transcription element (BTE) in CYP1A1 and a proposed phenobarbital responsive element (Barbie box) are present from -89 to -67. However, no protection was detected in these regions by DNase I footprinting assay. Instead, a region (FP1) from -64 to -45 was protected by liver nuclear extracts. Mutation of either the BTE or FP1 sequences of CYP2B1, or both, reduced transcriptional activity by 70-80% in HepG2 cells. FP1 was identified as a functional C/EBP site by co-transfection of C/EBP expression vectors and supershift assays with C/EBP antisera. Binding of liver nuclear proteins to sequences within the -110 to +1 region was not detectably altered by pretreatment of rats with phenobarbital.
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PMID:The CYP2B1 proximal promoter contains a functional C/EBP regulatory element. 876 71

Glucokinase gene regions that are important for liver specific expression of the enzyme have been functionally identified using transient transfection of rat hepatocytes. Maximal luciferase activity was elicited by a reporter plasmid with 3.4 kilobase pairs of genomic DNA flanking the liver glucokinase promoter. Deletion of a gene fragment between -1000 and -600 with respect to the start of transcription resulted in a 60% decrease in luciferase activity. Further reduction, close to background level, occurred upon deletion of a 90-base pair sequence between -123 and -34. Reporter plasmids with the liver glucokinase promoter and any length of flanking sequence were minimally active in INS-1 insulinoma cells, and conversely reporters with the beta-cell-specific promoter were ineffective in primary hepatocytes. In FTO-2B hepatoma cells, a differentiated line expressing many liver-specific traits but not the endogenous glucokinase gene, the promoter proximal region between -123 and -34 markedly stimulated the expression of transfected plasmids above background. However, addition of the flanking region up to -1000 inhibited luciferase expression. The gene fragment from -1003 to -707 was shown to be a bona fide, hepatocyte-specific enhancer by the following criteria: 1) it stimulated reporter expression by more than 10- and 5-fold when inserted directly upstream of the glucokinase TATA box or complete promoter, respectively, regardless of orientation; 2) it stimulated gene expression from the heterologous SV 40 promoter 4-fold; 3) it was also effective from a downstream position; and 4) in contrast to the enhancer effect in primary hepatocytes, the sequence acted as a silencer in FTO-2B cells and was neutral in INS-1 cells. Both the promoter proximal and the enhancer regions were marked by DNase I hypersensitive sites in the chromatin of primary hepatocytes but not hepatoma or insulinoma cells. Seven footprinted elements termed A through G were mapped in the enhancer by the in vitro DNase I protection assay. Elements A-C may bind liver enriched factors, because they were not protected by spleen nuclear extract. In hepatocyte transfection, the downstream half of the enhancer containing elements A-C was about half as effective as the complete enhancer in stimulating glucokinase promoter activity. Site-directed mutagenesis of element A virtually abrogated the activity of the half-enhancer, whereas mutation of element C had a more moderate effect. The sequence between -732 and -578 upstream of the liver start of transcription in the human glucokinase gene displays 79% sequence identity with the downstream half of the rat enhancer. The human gene fragment ligated to the minimal rat liver glucokinase promoter was shown to work as an enhancer in the hepatocyte transfection system.
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PMID:Liver-specific enhancer of the glucokinase gene. 891 May 67

Monomeric G-actin, total actin and filamentous F-actin were examined during the growth of experimental tumour hepatoma Morris 5123. Actin was measured by the inhibition of the standard DNase I from bovine pancreas. A remarkable increase in total actin, and F-actin content, as well as in the state of actin polymerization (measured by the F:G actin ratio) was shown in the cytosol of the tumour cells in the second week of the tumour growth, followed by a rapid decrease in the third week. Parallel observations were made in the cytosol of the liver and in the serum of the tumour bearing rats. The results were compared with the data obtained for control healthy rats. It was shown that hepatoma Morris tumour growth is accompanied by the changes in the actin content and polymerization, occurring also in the liver of the host animal. Only G-actin was found in the serum. It increased significantly in the second week of tumour growth as compared with the G-actin level in the serum of the control healthy rats.
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PMID:Actin content and polymerization in tumour, liver and serum of the hepatoma Morris 5123 tumour bearing rats. 893 49

Two regions of the cAspAT gene promoter mediate the glucocorticoid regulation of this gene in the Fao hepatoma cell line. The proximal region was localized by deletion studies and stable transfections in the Fao cells to the sequence -553/-398. This region includes the glucocorticoid-responsive element (GRE) A sequence, which consists of two overlapping GREs and which can mediate the glucocorticoid regulation of a heterologous promoter. DNase I footprinting studies have shown that a site 80 base pairs upstream of the GRE A was protected by liver and brain nuclear extracts (site P8). The binding was displaced by an excess of an oligonucleotide containing a typical NF1 binding site and by NF1-specific antibodies. In electrophoretic mobility shift assay using the P8 oligonucleotide as a probe, several complexes were formed. Most complexes were common to liver and brain but were less abundant when testis extracts were used. At least one complex was specific to the liver. All complexes, with the exception of two, were competed for by the NF1 oligonucleotide. Furthermore, the sequence of the P8 site showed a 7/9-base pair homology with a typical NF1 site. A mutation of the P8 site, which prevents the binding of NF1-like proteins to it, considerably decreases the regulation of the cAspAT promoter fragment by glucocorticoids. Surprisingly, the basal activity of the mutant promoter was increased 2-fold. Thus, the regulation of the cAspAT gene promoter is mediated by a regulatory unit comprising the GRE A and a NF1 binding site.
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PMID:Contribution of a nuclear factor 1 binding site to the glucocorticoid regulation of the cytosolic aspartate aminotransferase gene promoter. 895 92

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