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)

Vitamin A level and the cytosol-binding proteins specific for vitamin A ere studied in human tumor and its surrounding tissue. The tissues examined were 10 hepatocellular carcinomas which were surgically removed, 4 other malignant tumors (2 metastatic liver cancer and one each of gastric cancer and glioma), and 3 human fetal livers. Compared with surrounding tissues, considerable decrease of vitamin A content was observed in the hepatocellular carcinoma suggesting local deficient state of the vitamin. In addition to cellular retinol-binding protein (CRBP) and retinoic acid-binding protein (CRABP), a new molecular species having affinity for both retinol and retinoic acid was detected in the cytosols obtained from hepatocellular carcinoma as well as glioma by means of gel filtration on Sephadex G-75. With regard to ligand specificity, the protein was found to be similar to cellular retinol-binding protein, F-type or CRBP(F) which was originally recognized in the fish eye cytosol. Since the protein was also demonstrated in human fetal liver, CRBP(F) is considered to be an oncofetal protein in nature. The present study further revealed that CRBP(F) was detected in 80% of hepatocellular carcinoma (whereas plasma alpha-fetoprotein was significantly elevated only in 50%), and hepatocellular carcinoma contained CRBP(F) in a larger amount than CRABP.
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PMID:Demonstration of a novel cellular retinol-binding protein, F-type, in hepatocellular carcinoma. 8 58

1. A protein which binds retinol in vitro with high affinity and specificity was detected by sucrose gradient centrifugation or by gel filtration after preincubating rat tissue cytosols with all-trans-[3H]retinol. This protein sediments in the 2 S region of sucrose gradients. Molecular size determination by gel filtration indicates a molecular weight of 16 000. 2. Competition studies revealed that only all-trans-retinol, not retinal or retinoic acid, competes for binding. The binding of radioactive retinol is reversible. 3. This protein was detected in cytosols of rat liver, lung, spleen, brain, testis, ovaries, uterus and intestinal mucosa whereas heart or gastrocnemius muscle seem to lack this protein. 4. The cellular retinol binding protein was found in fetuses as early as day 12 of the gestation period and possessed the same specificity for the ligand as the one in adult tissues. 5. This binding component was not detected in cytosols prepared from Novikoff hepatoma, ascites hepatoma AS-30D, mouse Ehrlich ascites tumor and mouse pituitary tumor cell line AtT 20. 6. The cellular retinol binding protein seems to be different from that described to be present in the serum as suggested by difference in size and by the inability of the antisera against the serum retinol binding protein to remove the cellular binding protein from the cytosol preparations.
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PMID:Cellular retinol-binding protein. 81 Jan 77

The expression of retinoic acid receptor alpha, beta, and gamma mRNA was examined in developing rat livers and rat hepatoma-derived cell lines H-4-II-E, McA-RH 7777, and 8994 that represent different hepatocyte phenotypes. Northern blot hybridization demonstrated that all three receptor mRNAs were expressed in the fetal livers of different gestational ages, and the levels of expression increased significantly 3 to 4 weeks after birth. In the hepatoma cell lines, the expression pattern of retinoic acid receptor alpha and gamma mRNA did not correlate with the phenotype. In contrast, retinoic acid receptor beta mRNA was only detected in the adult phenotypic H-4-II-E cells but not in McA-RH 7777 and 8994 cells, which represent embryonic and fetal hepatocyte phenotypes, respectively. The levels of retinoic acid receptor beta mRNA in hepatoma cell lines were lower than adult rat liver. These data suggest that the increased expression of retinoic acid receptor beta gene is associated with differentiation or maturation of rat hepatocytes. The effect of retinoic acid on retinoic acid receptor gene expression was also studied in hepatoma cells. Retinoic acid did not regulate retinoic acid receptor gene expression in McA-RH 7777 and 8994 cells, and the retinoic acid receptor beta gene remained inactivated in these cells. However, Southern blot hybridization indicated that the gross structure of retinoic acid receptor beta gene was not altered during malignant transformation. In H-4-II-E cells, retinoic acid increased the expression of retinoic acid receptor beta and gamma gene. Because of the similarity between H-4-II-E cells and normal adult hepatocytes, this type of autoregulation may be a mechanism by which retinoic acid regulates its own effect in vivo.
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PMID:Expression of retinoic acid receptor genes in developing rat livers and hepatoma cells. 131 6

Transferrin and albumin, which are both secreted from the human hepatoma cell line Hep3B, were regulated transcriptionally by retinoic acid (RA) in a dose-dependent manner. The cell growth rate was little affected under the same conditions. The treatment of Hep3B cells with RA (10 microM for 48 h) resulted in an 8-fold increase in transferrin protein synthesis, a 10-fold increase in the steady-state transferrin mRNA level, and a 5-fold increase in its transcriptional rate. The same treatment led to 4-fold decrease in albumin synthesis, as well as a 7-fold decline in the steady-state albumin mRNA level and a 4-fold decrease in the transcriptional rate. Cycloheximide and actinomycin D blocked the action of RA, suggesting that RA may regulate transferrin and albumin gene expression indirectly in human liver cells.
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PMID:Transcriptional regulation of transferrin and albumin genes by retinoic acid in human hepatoma cell line Hep3B. 131 21

The gene coding for apolipoprotein AI (apoAI), a lipid binding protein involved in the transport of cholesterol and other lipids in the plasma, is expressed in mammals predominantly in the liver and the intestine. Liver-specific expression is controlled by synergistic interactions between transcription factors bound to three separate sites, sites A (-214 to -192), B (-169 to -146), and C (-134 to -119), within a powerful liver-specific enhancer located between nucleotides -222 and -110 upstream of the apoAI gene transcription start site (+1). Previous studies in our laboratory have shown that ARP-1, a member of the nuclear receptor superfamily whose ligand is unknown (orphan receptor), binds to site A and represses transcription of the apoAI gene in liver cells. In a more recent series of experiments, we found that site A is a retinoic acid (RA) response element that responds preferentially to the recently identified RA-responsive receptor RXR alpha over the previously characterized RA receptors RAR alpha and RAR beta. In this study we investigated the combined effects of ARP-1 and RXR alpha on apoAI gene expression in liver cells. Transient transfection assays showed that site A is necessary and sufficient for RXR alpha-mediated transactivation of the apoAI gene basal promoter in human hepatoma HepG2 cells in the presence of RA and that this transactivation is abolished by increasing amounts of cotransfected ARP-1. Electrophoretic mobility shift assays and subsequent Scatchard analysis of the data revealed that ARP-1 and RXR alpha bind to site A with similar affinities. These assays also revealed that ARP-1 and RXR alpha bind to site A as heterodimers with an affinity approximately 10 times greater than that of either ARP-1 or RXR alpha alone. Further transfection assays in HepG2 cells, using as a reporter a construct containing the apoAI gene basal promoter and its upstream regulatory elements (including site A) in their natural context, revealed that RXR alpha has very little effect on the levels of expression regardless of the presence or absence of RA. However, while ARP-1 alone or ARP-1 and RXR alpha together dramatically repress expression in the absence of RA, the repression by ARP-1 and RXR alpha together, but not ARP-1 alone, is almost completely alleviated in the presence of RA. These results indicate that transcriptional repression by ARP-1 sensitizes apoAI gene responsiveness to RXR alpha and RA and suggest that the magnitude of this responsiveness is regulated by the intracellular ratio of ARP-1 to RXR alpha. These observations raise the possibility that transcriptional repression is a general mechanism for switching gene transcription between alternative transcription activation pathways.
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PMID:Repression by ARP-1 sensitizes apolipoprotein AI gene responsiveness to RXR alpha and retinoic acid. 132 32

Many transcriptional regulators can stimulate or repress gene expression depending on the cellular or genetic contexts. Thus dexamethasone increases the amount of alpha-fetoprotein mRNA in Morris rat hepatoma derived cell line McA-RH 8994 cells, but decreases it in McA-RH 7777 cells. In the present study, we demonstrated that retinoic acid, whose receptors belong to the steroid/thyroid hormone receptor gene family, also enhanced the expression of alpha-fetoprotein and albumin gene in McA-RH 8994 cells, but had no effect on alpha-fetoprotein gene expression in McA-RH 7777 cells. In contrast to the effect of dexamethasone on the alpha-fetoprotein gene expression, which requires ongoing protein synthesis, cycloheximide, a protein synthesis inhibitor, enhanced the effect of retinoic acid. Actinomycin D inhibited the retinoic acid mediated increase in alpha-fetoprotein and albumin mRNA expression. Since the McA-RH 8994 cells did not express retinoic acid receptor beta mRNA, the observed regulatory effects of retinoic acid on alpha-fetoprotein and albumin gene expression were not mediated through retinoic acid receptor beta. We also conclude that the regulation was at the level of transcription and that retinoic acid and dexamethasone probably regulate the expression of liver specific genes through different mechanisms.
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PMID:The effects of retinoic acid on the expression of alpha-fetoprotein and albumin genes in rat hepatoma cell lines. 137 51

Reversing effect of retinoic acid (RA) on some phenotypes of human hepatocarcinoma cell line was studied. It was found that the growth of SMMC-7721 human hepatocarcinoma cell line was markedly inhibited when cultured in 10 mumol/L RA. Morphology of cells treated with RA reversed to normal when observed under light and electron microscopes and by image analysis. The 3H-TdR incorporation declined. By flow cytometry, it was observed that cells in G0/G1 phase increased from 49.6% to 59.1%, whereas cells in S or G2 + M phase decreased from 50.4% to 40.9% after 3-day RA treatment. The major distribution of chromosomes changed from 48-56 to 44-50 with an increase in diploid (from 4% to 15%). The results indicate that RA could reverse some phenotypes of human hepatocarcinoma cell line.
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PMID:[Reversing effect of retinoic acid on some phenotypes of human hepatocarcinoma cell line]. 165 93

The ability of a retinoic acid (RA) response element (RARE) in the phosphoenolpyruvate carboxykinase (PEPCK) gene promoter to mediate effects of either RA or thyroid hormone (T3) on gene expression was studied. Fusion gene constructs consisting of PEPCK promoter sequences ligated to the chloramphenicol acetyltransferase (CAT) reporter gene were used for this analysis. While T3 induced CAT expression to a small degree (about twofold) when such constructs were transiently transfected into H4IIE rat hepatoma cells, along with an expression vector encoding the alpha subtype of the T3 receptor (TR), this effect was mediated by promoter sequences distinct from the PEPCK RARE. Although TRs were capable of binding the PEPCK RARE in the form of putative monomers, dimers, and heterodimers with RA receptors (RARs), this element failed to mediate any positive effect of T3 on gene expression. In contrast, the PEPCK RARE mediated six- to eightfold induction of CAT expression by RA. When TRs were coexpressed along with RARs in transfected H4IIE cells, this RA induction was substantially blunted in a T3-independent manner. This inhibitory effect may be due to the binding of nonfunctional TRs or TR-RAR heterodimers to the PEPCK RARE. A model is proposed to explain the previously observed in vivo effects of T3 on PEPCK gene expression.
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PMID:Specificity of a retinoic acid response element in the phosphoenolpyruvate carboxykinase gene promoter: consequences of both retinoic acid and thyroid hormone receptor binding. 194 93

We have cloned and characterized a mouse cDNA coding for LFB3, a DNA binding protein containing an extra-large homeodomain. The first 315 amino acids of LFB3 are highly homologous to the DNA binding domain of LFB1, a regulatory protein involved in the expression of several liver-specific genes. LFB3 is a transcriptional activator which binds to DNA as a dimer and forms heterodimers with LFB1 both in vitro and in vivo. However, LFB3 expression seems not to be directly correlated with the liver-specific phenotype, since it is detected in dedifferentiated hepatoma cell lines which express neither LFB1 nor several liver-specific genes. LFB3 expression starts before that of LFB1 during mouse and rat development, and is strongly increased upon retinoic acid induced differentiation of F9 embryonic carcinoma cells. LFB3 and LFB1 are expressed in the epithelial component of many organs of endodermal and mesodermal origin, suggesting that they may play a more general role associated with the differentiation of specialized epithelia.
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PMID:LFB3, a heterodimer-forming homeoprotein of the LFB1 family, is expressed in specialized epithelia. 167 25

The human kidney cell line 293 was generated by transfection of adenovirus DNA into normal human embryonic kidney (HEK) cells (Graham et al., 1977), whereas the human kidney cell lines ST-1i and STt-4i were generated by transfection of HEK cells with plasmids encoding SV40 viral oncogenes (Abcouwer et al., 1989). In this study, we examined kidney-specific enzyme activity levels in 293, ST-1i, and STt-4i cells to determine their ability to exhibit kidney-specific gene expression. Enzymes examined were leucine aminopeptidase (LAP), gamma-glutamyl transpeptidase (gamma-GTP), and the disaccharidases trehalase and maltase. Enzymatic activity levels were compared to three other kidney cell lines (MDCK, OK, and LLC-PK1) as well as to normal human embryonic kidney (HEK) cells and the human hepatoma cell line, Hep G2. Modulation of kidney-specific enzyme activities was assessed in response to several differentiation-inducing agents (adenosine, n-butyric acid, hexamethylene bisacetamide (HMBA), dimethyl sulfoxide (DMSO), N,N'-dimethylformamide (DMF), isobutyl methyl xanthine (IBMX), di butyryl cAMP, and retinoic acid). ST-1i and STt-4i exhibit elevated levels of LAP, gamma-GTP, trehalase, and maltase, consistent with their kidney cell origin, whereas 293 cells exhibit elevated levels of just gamma-GTP and maltase. Maltase and gamma-GTP enzyme activities in ST-1i and STt-4i cells were very responsive to the various inducing agents; 293 cells were less responsive at the inducer concentrations examined. None of the three human cell lines formed domes under any of the experimental conditions. In summary, ST-1i and STt-4i are comparable to normal HEK cells in expression of kidney-specific enzymes and in responsiveness to differentiation-inducing agents, in spite of continued expression of SV40 oncogenes.
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PMID:Kidney-specific enzyme expression by human kidney cell lines generated through oncogene transfection. 167 45


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