Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0019204 (hepatocellular carcinoma)
71,386 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The human apolipoprotein B (apoB) gene codes for two related proteins, apoB-100 and apoB-48. ApoB-100 is synthesized in the liver, is the major protein constituent of low density lipoprotein, and serves as the ligand for the LDL receptor. cis-acting DNA sequence elements required for hepatic specific apoB transcription were identified in hepatoma (HepG2) and epithelial carcinoma (HeLa) cell lines transfected with apoB/CAT (chloramphenicol acetyltransferase) hybrid constructions. HepG2 cells express the transfected apoB constructions at high levels relative to expression in HeLa cells. Mutational analysis of the 5'-flanking region of the apoB gene revealed the presence of positive and negative regulatory regions. The most distal of these regions, located from -261 to -128 (with respect to the start site of transcription), was found to have a roughly equivalent negative activity in both cell types. However, sequences located from -128 to -86 showed a positive activity in HepG2 cells and a negative activity in HeLa cells. Finally, a sequence element located between positions -86 and -70 was found to have a very strong positive effect in HepG2 cells and only a mild positive effect in HeLa cells. These two proximal regions located between -128 and -70 appear to act together to determine the cell type-specific expression of the apoB gene in HepG2 and HeLa cells. Using the gel mobility shift assay and the DNase I footprinting technique, we demonstrated that DNA binding proteins from HepG2 and mouse liver nuclear extracts interact with the crucial positive region located between -86 and -70. This region was also found to contain sequence elements similar to sequences found in the promoters of other apolipoprotein genes, as well as other genes that are expressed in the liver, suggesting that these genes may share some transcriptional regulatory components.
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PMID:Cell type-specific expression of the human apoB gene is controlled by two cis-acting regulatory regions. 316 76

We examined in the H4IIE rat hepatoma cell line the relationship between butyrate-induced changes in the nuclease sensitivity of chromatin and changes in transcriptional activity of specific genes. The butyrate-inducible metallothionein I (MT-I) gene underwent a dramatic increase in DNase I sensitivity after 3 h of butyrate treatment. However, genes not transcribed in H4IIE cells underwent the same changes in DNase I sensitivity. Thus, butyrate-induced increases in DNase I sensitivity are not sufficient for the transcriptional activation of a gene. Butyrate treatment has also been reported to alter the sensitivity of sequences to micrococcal nuclease (MNase) in a manner reflecting their tissue-specific expression. Butyrate exposure caused increased digestion of the MT-I gene by MNase. However, butyrate-induced MNase sensitivity also occurred for genes which are neither transcribed in untreated cells nor butyrate inducible. Moreover, cadmium, a potent transcriptional activator of the MT-I gene, does not alter the sensitivity of the MT-I gene to MNase. Thus, the butyrate-induced alterations in MNase sensitivity are neither sufficient for, necessary for, nor indicative of transcriptional activation.
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PMID:Butyrate-induced changes in nuclease sensitivity of chromatin cannot be correlated with transcriptional activation. 343 45

As tested by DNase I digestion, the chromatin structure in several regions 5' to the rat serum albumin gene varies in tissues and cell lines that differ in transcription rate of this gene. Three DNase I-hypersensitive regions were found in hepatocyte nuclei but not in kidney cell nuclei. The sites were approximately 2.8 kbp (site 1), 0.2 kbp (site 2), and 0.05 kbp (site 3) upstream from the cap site of the gene. In rat fetal liver tissue and rat hepatoma cell lines (FaO, C2, and C2-rev7), as well as in cultured primary hepatocytes where the rate of albumin gene transcription is lower than in adult liver, hypersensitive site (HSS) 1 was absent while sites 2 and 3 were present. In addition, the C2 cell line, which does not express albumin mRNA, contains a different HSS at position -1.5 kbp. Factors (proteins) bound to sites 2 and 3 may allow cell-specific transcription, but the additional factor interaction at site 1 could be required for a maximal rate of albumin gene transcription.
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PMID:DNase I-hypersensitive sites in the 5'-flanking region of the rat serum albumin gene: correlation between chromatin structure and transcriptional activity. 346 9

We examined the chromatin structure of the rat metallothionein I gene, both in uninduced cells and in cells induced by heavy metals or dexamethasone, using hypersensitivity to DNase I as an assay. The metallothionein I gene of the H4IIE rat hepatoma cell line, expressed at basal level, has a single DNase I-hypersensitive site. This site maps between putative hormone and basal level control sequences. Induction of the gene by cadmium or zinc resulted in the appearance of a new hypersensitive site near the start site of transcription, in a region near the metal-regulatory elements. In contrast, induction of the metallothionein I gene by dexamethasone did not alter the basal pattern of hypersensitivity. Thus, different mechanisms of induction of metallothionein transcription lead to distinct alterations in the chromatin containing the 5' sequences regulating the expression of this gene.
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PMID:Alternative inducers of the rat metallothionein I gene cause distinct changes in chromatin structure in the 5' region of the gene. 378 3

We have examined the DNase I sensitivity of the albumin and alpha-fetoprotein (AFP) genes in different rat tissues (adult liver and kidney) and cloned cell lines (hepatoma 7777-C8, JF1 fibroblasts), which show drastic differences in the level of expression of these two genes. This was done by studying the disappearance of defined restriction endonuclease fragments of these genes as a function of limited DNase I digestion. The sensitivity of these genes was compared to that of a gene not expressed in the hepatic cells and to that of a ubiquitously expressed gene. In nuclei from adult rat liver the albumin and AFP genes were preferentially degraded by the nucleolytic action of DNase I, whereas they were not in rat kidney nuclei. In the hepatoma cells the AFP gene was much more sensitive to DNase I digestion than the albumin gene; both genes were very resistant to DNase I action in fibroblastic nuclei. When analyzed in relation to the level of gene expression our results indicate that alterations in the chromatin structure of the albumin and AFP genes might be involved in the early establishment of the tissue-specific potential of overt gene expression; such alterations reflected in an altered DNase I sensitivity do not appear to be responsible for the changes in gene activity occurring during the terminal differentiation of the hepatocyte; and modifications in the chromatin structure of these genes might occur during oncogenic events; these structural modifications could be related to the changes in gene expression observed in hepatocarcinogenic processes.
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PMID:Differential DNase I sensitivity of the albumin and alpha-fetoprotein genes in chromatin from rat tissues and cell lines. 620 92

Mononucleosomes obtained from cultured mouse hepatoma cells were incubated with RNA polymerase II from wheat germ. No free DNA was liberated as available templates under the experimental condition employed. Size analysis of the transcripts showed that the polymerase initiated transcription from either terminus and read through the DNA template of mononucleosomes. Sucrose density gradient centrifugation of the reaction mixture resolved mononucleosome-polymerase complexes from free materials. The complexes were characterized by the enrichment of DNA fragments containing the nucleosome linker region, the presence of H1 histone, and the increased susceptibility to DNase I. Both the complexes formed in the presence and absence of precursor nucleotides were susceptible. These suggest that RNA polymerase II prefers to bind to the linker region, and the polymerase-bound nucleosomes are structurally altered. The data were discussed in context with possible mechanisms of transcription of the nucleosome structure.
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PMID:Formation of transcribing mononucleosome-eukaryotic RNA polymerase II complexes in vitro as a simple model of active chromatin. 623 May 98

The effect of chicken erythrocyte High Mobility Group protein 1 (HMG-1) on the enzymatic hydrolysis of purified double-stranded and single-stranded bacteriophage lambda DNA was studied. HMG-1 was found to inhibit the digestion of single- and double-stranded DNA by S1 nuclease and DNase I, respectively. HMG-I increased the rate of hydrolysis of double-stranded DNA by micrococcal nuclease, particularly at low HMG-1/DNA ratios, and had little effect on the hydrolysis of single-stranded DNA by micrococcal nucleases, even at high HMG-1 DNA ratios. We also present a semi-quantitative estimate that HMG-1 and HMG-2 occur in chromatin from rapidly dividing, cultured rat hepatoma cells at about 8 times the level that they occur in adult rat liver chromatin.
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PMID:Influence of nonhistone chromatin protein HMG-1 on the enzymatic digestion of purified DNA. 629 Oct 2

Localization of malignant cell antigens which are not detected in the liver chromatin was investigated by antibodies to chromatin of Zajdela ascite hepatoma and solid hepatoma 27. Antibodies to chromatin of Zajdela ascite hepatoma do not interact with nuclear matrix of both hepatoma and liver cells. Zajdela ascite hepatoma and solid hepatoma 27 chromatin regions hypersensitive to DNase I and endogenous Mg2+-dependent nuclease are enriched with immunogenic proteins. Antibodies to hepatoma chromatins pretreated with liver chromatin show that hepatoma chromatin antigens which are not detected in liver chromatin are localized in chromatin regions hypersensitive to nucleases but are absent (or scanty) in actively transcribed regions.
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PMID:[Intranuclear localization of hepatoma chromatin antigens not detected in liver chromatin]. 651 Mar 42

Several actin binding proteins were isolated from ascites hepatoma cells AH7974 by DNase I affinity chromatography. Among them, a protein having a molecular weight of 18,000 was further purified by DEAE cellulose and hydroxyapatite column chromatographies and gel filtration on a Sephadex G-75 column. The 18K protein not only inhibits actin polymerization but also depolymerizes actin filaments. This conclusion was supported by viscosity and fluorescence intensity measurements and the DNase I inhibition assay. A chemical cross-linking experiment suggested that the 18K protein binds to monomeric actin and forms and 18K-actin 1:1 complex. The net depolymerization rate by the 18K protein measured by the DNase I inhibition assay was slower than the rapid reduction of the fluorescence intensity of pyrene-labeled F-actin upon addition of the 18K protein. This result suggests that the 18K protein not only binds to monomeric actin but also binds to actin filaments directly. The sedimentation assay showed that a part of the 18K protein was cosedimented with actin filaments. Electron microscopic observations demonstrated that the 18K protein decreased the amount of actin filaments and the remaining filaments appeared to be decorated and distorted by the 18K protein. The 18K protein had no Ca2+ ion sensitivity and exhibited the same effect on both this tumor actin and muscle actin.
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PMID:An 18K protein from ascites hepatoma cell depolymerizes actin filaments rapidly. 654 14

Hepatocyte nuclear factor 4 (HNF-4) is a liver-enriched transcription factor and a member of the steroid hormone receptor superfamily. HNF-4 is required for the hepatoma-specific expression of HNF-1 alpha, another liver-enriched transcription factor, suggesting the early participation of HNF-4 in development. To prepare for further study of HNF-4 in development, the tissue-specific expression of the mouse HNF-4 gene was studied by analyzing the promoter region for required DNA elements. DNase-hypersensitive sites in the gene in liver and kidney tissues were found in regions both distal and proximal to the RNA start that were absent in tissues in which HNF-4 expression did not occur. By use of reporter constructs in transient-transfection assays and with transgenic mice, a region sufficient to drive liver-specific expression of HNF-4 was identified. While an HNF-1 binding site between bp -98 and -68 played an important role in the hepatoma-specific promoter activity of HNF-4 in transient-transfection assays, it was not sufficient for the liver-specific expression of a reporter gene in transgenic mice. Distal enhancer elements indicated by the presence of DNase I-hypersensitive sites at kb -5.5 and -6.5, while not functional in transient-transfection assays, were required for the correct expression of the mouse HNF-4 gene in animals.
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PMID:Tissue-specific regulation of mouse hepatocyte nuclear factor 4 expression. 752 62


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