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)

We have compared the efflux of cholesterol from different cellular pools of human hepatoma cells HepG2 using intact cells or isolated membrane fractions. To label different pools, cells were incubated with either unesterified [14C]cholesterol that had been incorporated into high density lipoproteins ([14C]FC-HDL), low density lipoproteins ([14C]FC-LDL), or phosphatidylcholine liposomes ([14C]FC-PC), or with [14C]acetate. Cell fractionation revealed that labeling of cells with [14C]FC-PC resulted in the incorporation of [14C]cholesterol almost exclusively into the plasma membrane (PM), while incubation with [14C]FC-HDL resulted in the majority of [14C]cholesterol incorporation into the PM, but with a smaller component associated with lysosomes. Labeling with [14C]FC-LDL or [14C]acetate led to an accumulation of [14C]cholesterol predominantly in lysosomes or the endoplasmic reticulum (ER), respectively. When the kinetics of [14C]cholesterol efflux was analyzed after pulse-labeling of different cellular pools, half-times of cholesterol efflux from lysosomes and ER were significantly longer than that from PM. In another set of experiments, when both labeling and efflux times varied, efflux of [14C]cholesterol from the PM to human serum after 1.5 h pulse and chase incubations was double that from lysosomes and 8-fold that from ER. Extension of the incubation times from 1.5 to 3 h diminished the difference in cholesterol efflux from different membranes. Further incubation to 6 h almost abolished the different responses. Cell-free preparations of membranes, obtained from cells labeled with [14C]cholesterol, showed no differences in cholesterol efflux. No differences in the distribution of [14C]cholesterol released into serum among lipoprotein subfractions was observed. Pretreatment of the serum with Fab fragments of polyclonal rabbit anti-human apolipoprotein A-I antibodies reduced its ability to promote efflux of cholesterol from the ER by 77%, but had no effect on cholesterol efflux from the PM. Fab fragments of non-immune IgG had no effect on the efflux of both ER and PM cholesterol. We conclude that the availability of cellular cholesterol for efflux from HepG2 cells is strongly influenced by its subcellular location, and is regulated by apolipoprotein A-I.
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PMID:Efflux of intracellular versus plasma membrane cholesterol in HepG2 cells: different availability and regulation by apolipoprotein A-I. 855 77

Previously, we demonstrated that when two human hepatoma cell lines, Hep3B and HepG2, were exposed to gemfibrozil, a hypolipidemic drug, a 2-fold induction in apolipoprotein A-I (apoA-I) mRNA levels resulted. To determine if mRNA stabilization was responsible for the changes in apoA-I mRNA levels, the half-lives for apoA-I mRNA were measured in the presence of actinomycin D with and without gemfibrozil. These experiments revealed no differences in stability. However, nuclear run-off assays indicated that the transcription rate of the apoA-I gene was increased 2-fold in gemfibrozil-treated cells. Transient transfection experiments also indicated that the induction of apoA-I mRNA level in response to gemfibrozil is mediated at the transcriptional level. We have identified two copies of the "drug-responsive element" (DRE) in the apoA-I promoter region that may be responsible for the increase in apoA-I transcriptional activity by gemfibrozil. Using gel mobility shift assays with a synthetic DRE oligonucleotide, we have demonstrated that exposure of Hep3B and HepG2 cells to gemfibrozil resulted in strong induction of a protein-DNA complex. The formation of this complex is highly sequence-specific as indicated by the DNA competition experiments. The drug-inducible nuclear proteins bind to the DRE of the human apoA-I gene with an apparent Kd of 4.1 nM. Methylation interference experiments have localized the contact sites of nuclear factors to the DRE region. Southwestern blot analyses have identified two groups of drug-inducible nuclear proteins with molecular masses of approximately 30 and 15 kDa. When a copy of synthetic DRE oligonucleotide was inserted upstream of the thymidine kinase promoter and luciferase reporter construct, a significant 2-fold induction in luciferase activity was observed in the presence of gemfibrozil following transient transfection of two human hepatoma cell lines, HepG2 and Hep3B. However, a plasmid containing one copy of mutated apoA-I-DRE oligomer did not confer responsiveness to gemfibrozil treatment. Furthermore, pGL2 (apoA-I -250 mutant DRE), which carried an internal mutation of the DRE in the human apoA-I proximal promoter region, showed no increase in luciferase activity in response to gemfibrozil. These results implicate protein-DNA interactions at the DRE region in the transcriptional induction of human apoA-I gene expression by gemfibrozil.
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PMID:Protein-DNA interactions at a drug-responsive element of the human apolipoprotein A-I gene. 890 Feb 8

The observation that glucocorticoids increase the abundance of apolipoprotein A-I led us to a search for potential underlying mechanism(s). In this report, we show that the synthetic glucocorticoid, dexamethasone, injected into rats increases serum levels of apoA-I protein, hepatic mRNA and "run-on' transcription of the gene by 3-, 5-, and 2-fold, respectively. Results of transient transfection studies of the rat apoA-I promoter reveal that effects of dexamethasone are mediated by a cis-acting site B (-170 to -145). Dexamethasone treatment of hepatoma cells enhances the DNA binding activity of nuclear factors that bind this site. Unexpectedly, site B does not contain a consensus glucocorticoid receptor recognition motif nor binds to bacterially expressed glucocorticoid receptor. These results indicate that the actions of glucocorticoids on site B involve indirect mechanisms. Site B is comprised of a direct repeat of a nonanucleotide and mutation of either one abolishes the effect of glucocorticoid. Additionally, the transcriptional activity of site B in response to dexamethasone is amplified by a 5' sequence called site S (-186 to -171). Dexamethasone has no effect on site S in the absence of site B. In summary, our data show that dexamethasone increases rat apoA-I gene expression by an indirect mechanism.
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PMID:Glucocorticoid increases rat apolipoprotein A-I promoter activity. 890 99

Studies assessing fatty streak formation in mice have revealed that human apolipoprotein A-I (apoAI) transgenic mice (TgAI) have 15-fold less atherosclerosis susceptibility than combined human apolipoprotein A-I/human apolipoprotein A-II (apoAI:AII) transgenics (TgAI:AII) and 40-fold less than nontransgenic control mice. In order to examine the biochemical mechanisms underlying those in vivo observations, we have compared in vitro properties of serum from the different groups of animals for participation in cholesterol efflux, LCAT activation, and pre-beta particle formation. Analysis of cholesterol efflux from both Fu5AH hepatoma and Ob1771 adipose cells revealed serum from the TgAI to be the most efficient in promoting efflux. The two-dimensional electrophoresis of mouse serum shows that control mice have exclusively apoAI in alpha particles. TgAI and TgAI:AII mice have 30 and 38% of total apoAI in particles with pre-beta electrophoretic mobility, respectively. The distribution of cell-derived cholesterol between these apoAI-containing lipoprotein subspecies after 1 and 60 min of incubation with Fu5AH hepatoma cells was examined. This revealed after a 1 min incubation 66 +/- 8 and 83 +/- 9% of the counts in particles with pre-beta mobility for TgAI and TgAI:AII mice, respectively; while after 60 min of incubation, only 6 +/- 2% of counts remained in pre-beta particles from the TgAI and 30 +/- 3% for the TgAI:AII. This suggests faster movement of cholesterol from pre-beta to alpha particles in plasma from the TgAI. Consistent with this is the observation that LCAT activity with both exogenous and endogenous substrate increased in the TgAI versus the TgAI:AII mice. The previously observed decrease in fatty streak formation in the TgAI versus the TgAI:AII and control mice is consistent with the in vitro studies presented here and suggests that HDL containing human apoAI is a more effective participant in the postulated early steps in reverse cholesterol transport than HDL containing both human apoAI and human apoAII, and/or murine HDL.
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PMID:Cholesterol efflux, lecithin-cholesterol acyltransferase activity, and pre-beta particle formation by serum from human apolipoprotein A-I and apolipoprotein A-I/apolipoprotein A-II transgenic mice consistent with the latter being less effective for reverse cholesterol transport. 904 26

In normal physiology, cells are exposed to cholesterol acceptors of different sizes simultaneously. The current study examined the possible interactions between two different classes of acceptors, one large (large unilamellar phospholipid vesicles, LUVs) and one small (HDL or other small acceptors), added separately or in combination to Fu5AH rat hepatoma cells. During a 24-hour incubation, LUVs of palmitoyl-oleoyl phosphatidylcholine at 1 mg phospholipid (PL) per milliliter extracted approximately 20% of cellular unesterified cholesterol (UC) label and mass in a slow, continuous fashion (half-time [t1/2] for UC efflux was approximately 50 hours) and human HDL3 at 25 micrograms PL per milliliter extracted approximately 15% cellular UC label with no change in cellular cholesterol mass (t1/2 of approximately 8 hours). In contrast, the combination of LUVs and HDL3 extracted over 90% of UC label (t1/2 of approximately 4 hours) and approximately 50% of the UC mass, indicating synergy. To explain this synergy, specific particle interactions were examined, namely, remodeling, in which the two acceptors alter each other's composition and thus the ability to mobilize cellular cholesterol, and shuttling, in which the small acceptor ferries cholesterol from cells to the large acceptor. To examine remodeling, LUVs and HDL were coincubated and reisolated before application to cells. This HDL became UC depleted, PL enriched, and lost a small amount of apolipoprotein A-I. Compared with equivalent numbers of control HDL particles; remodeled HDL caused faster efflux (t1/2 approximately 4 hours) and exhibited a greater capacity to sequester cellular cholesterol over 24 hours (approximately 38% versus approximately 15% for control HDL), consistent with their enrichment in PL. Remodeled LUVs still extracted approximately 20% of cellular UC. Thus, remodeling accounted for some but not all of the synergy between LUVs and HDL. To examine shuttling, several approaches were used. First, reisolation of particles after an 8-hour exposure to cells revealed that HDL contained very little of the cellular UC label. The label was found almost entirely with the LUVs, suggesting that LUVs continuously stripped the HDL of cellular UC. Second, bidirectional flux studies demonstrated that LUVs blocked the influx of HDL UC label into cells, while the rate of efflux of cellular UC was maintained. These kinetic effects explained the massive net loss of cellular UC to LUVs with HDL. Third, cyclodextrin, an artificial small acceptor that does not acquire PL and hence does not become remodeled, exhibited substantial synergy with LUVs, supporting shuttling. Thus, the presence of large and small acceptors together can overcome intrinsic deficiencies in each. Small acceptors are efficient at extracting cellular cholesterol because they approach cell surfaces easily but have a low capacity, whereas large acceptors are inefficient but have a high capacity. When present simultaneously, where the small acceptor can transfer cholesterol quickly to the large acceptor, high efficiency and high capacity are achieved. The processes responsible for this synergy, namely, remodeling and shuttling, may be general phenomena allowing cooperation both during normal physiology and after therapeutic administration of acceptors to accelerate tissue cholesterol efflux in vivo.
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PMID:Remodeling and shuttling. Mechanisms for the synergistic effects between different acceptor particles in the mobilization of cellular cholesterol. 908 95

High-density lipoprotein plays a key role in the reverse cholesterol transport pathway as well as in the delivery of cholesterol to the liver and steroidogenic tissues. Metabolism of high-density lipoprotein is determined by one of its apolipoproteins, apolipoprotein A-I; however, the identity and function of cellular protein which binds high-density lipoprotein remains unclear. The effect of antibodies against rat high-density lipoprotein binding proteins, HB1 and HB2, on high-density lipoprotein metabolism in a rat hepatoma cell line were studied. Cells were preincubated with the antibodies and 125I-labeled high-density lipoprotein binding and uptake as well as cholesterol biosynthesis and cholesterol efflux to human plasma or isolated high-density lipoprotein were studied. Both antibodies reacted specifically with HB1 and HB2 on the ligand and Western blots, but their binding was not blocked by high-density lipoprotein. Both antibodies inhibited 125I-labeled high-density lipoprotein binding to cells by 20-40%, but stimulated 125I-labeled high-density lipoprotein uptake by up to 2.5-fold. The antibodies had no effect on cholesterol efflux or on cholesterol synthesis. It is concluded that high-density lipoprotein binding proteins, HB1 and HB2, may be involved in high-density lipoprotein uptake in the liver rather than in mediating cholesterol efflux.
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PMID:Antibodies against high-density lipoprotein binding proteins enhance high-density lipoprotein uptake but do not affect cholesterol efflux from rat hepatoma cells. 936 35

Previous studies demonstrated that the -82 to +87 nucleotides (nt) 5'-upstream region of the chicken apolipoprotein (apoAI) gene are necessary for maximum reporter chloramphenicol acetyl transferase (cat) gene activation in chicken hepatocarcinoma (LMH) cells [Bhattacharyya, N., Chattapadhyay, R., Oddoux, C., Banerjee, D., 1993. Characterisation of the chicken apolipoprotein A-I gene 5'-flanking region. DNA Cell Biol. 12, 597-604]. The -82 to +87nt contain the 5'-untranslated nt, part of the first intron, and the upstream regulatory sequences. In this study, we examined the role of the first intron in the transcriptional regulation of the chicken apoAI gene. Six different reporter cat gene constructs with or without part of the first intron were prepared and transfected into LMH, normal rat kidney (NRK) and human hepatocarcinoma (HepG2) cells. Cell extracts were prepared from each transfected cell line, and CAT activities were measured. All three cell-lines readily expressed CAT, indicating that transcriptional regulatory sequences are present within the first intron region of the chicken apoAI gene. In an enhancer assay, the first intron containing cat construct exhibited a 5.4-fold increase of reporter activity in NRK cells when compared to a SV 40 promoter containing cat plasmid, suggesting the presence of a moderate enhancer element within +29 to +87nt of the first intron. DNase I protection assays, electrophoretic mobility shift assays and binding experiments with nuclear proteins isolated from different chicken tissues and LMH cells showed interaction with +29 to +87nt. Nuclear proteins isolated from tissues like liver and intestine, that actively express apoAI gene, failed to interact with +29 to +87nt, whereas nuclear proteins isolated from tissues that are less active in apoAI gene expression readily interacted with this region. To show the binding of the LMH-specific trans-acting factors to the +50 to +68nt intron region, DNA-affinity chromatography step was performed by using 3H-labeled nuclear proteins. These studies demonstrate that the first intron region of the apoAI gene interacts with trans-acting proteins and plays an important role in transcriptional regulation of the apoAI gene.
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PMID:Transcriptional regulatory sequences within the first intron of the chicken apolipoproteinAI (apoAI) gene. 1039 11

Serum amyloid A (SAA) and apolipoprotein A-I (apo A-I) are secreted by the liver. As concentrations of both apolipoproteins are inversely related under normal and acute-phase conditions, human HUH-7 hepatoma cells were stimulated with interleukin (IL)-1alpha (100 and 200 U), IL-6 (50 and 100 U), butyrate (2 mM) and dexamethasone (2 x 10(-7)M and 1 x 10(-6)M), alone or in combination. Changes in SAA and apo A-I synthesis were monitored after metabolic labelling of the cells with [35S]-methionine. Intracellular and secreted SAA and apo A-I were immunoprecipitated, separated by sodium dodecyl sulphate-polyacrylamide gel electrophoresis (SDS-PAGE), and the radioactivity in the corresponding bands was counted. Intracellular apolipoprotein levels were increased by all stimuli, either alone or in combination, between 2.7- and 5.5-fold (SAA) and between 2.8- and 4.1-fold (apo A-I), respectively. In a similar manner, apolipoprotein levels secreted by HUH-7 cells were increased between 3.1- and 4.3-fold (SAA) and between 1.9- and 3. 3-fold (apo A-I). Co-administration of cytokines, butyrate and/or dexamethasone had no pronounced synergistic effect on intracellular biosynthesis and secretion of SAA and apo A-I. The results from the present study suggest that apo A-I must not necessarily be considered as a negative acute-phase reactant.
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PMID:Effects of cytokines, butyrate and dexamethasone on serum amyloid A and apolipoprotein A-I synthesis in human HUH-7 hepatoma cells. 1044 23

With the goal of developing non-viral techniques for exogenous gene delivery into mammalian cells, we have studied receptor-mediated gene transfer using complexes of plasmid DNA and galactosylated poly-L-lysine, poly(L-Lys)Gal. To evaluate the optimal parameters for efficient gene transfer into human hepatoma HepG2 cells by the DNA-poly(L-Lys)Gal complexes, the bacterial reporter genes lacZ and cat were used. Examination of the reporter gene expression level showed that the efficiency of DNA delivery into the cells depends on the structure of DNA--poly(L-Lys)Gal complexes formed at various ionic strength values. The efficiency of DNA transfer into the cells also depends on DNA/poly(L-Lys)Gal molar ratio in the complexes. Plasmid vector carrying human apolipoprotein A-I (apoA-I) gene was injected as its complex with poly(L-Lys)Gal into rat tail vein. Some level of ApoA-I was detected in the serum of the injected rats. Also, the human apoA-I-containing plasmid was found to be captured specifically by the rat liver cells and transported into the cell nuclei, where it can persist as an episome-like structure for at least a week. After repeated injections of DNA--poly(L-Lys)Gal complexes, the level of human ApoA-I in rat serum increases, probably, due to accumulation of functional human apoA-I gene in the liver cell nuclei. The data seem to be useful for the development of non-viral approaches to gene therapy of cardiovascular diseases.
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PMID:Receptor-mediated transfer of DNA--galactosylated poly-L-lysine complexes into mammalian cells in vitro and in vivo. 1124 Mar 93

Insulin induces apolipoprotein A-I, apoA-I gene transcription via a membrane receptor with intrinsic tyrosine kinase activity. This finding prompted us to ask whether the gene is stimulated by epidermal growth factor (EGF), EGF a peptide hormone that binds to another member of the receptor superfamily with tyrosine kinase activity. Our data showed that like insulin, EGF increased abundance of apoA-I protein and transcription of the gene in human hepatoma, Hep G2 cells. The effects of both hormones appeared direct because their induction of apoA-I gene transcription was not affected by the protein synthesis inhibitor, cycloheximide. Although both insulin and EGF stimulate apoA-I expression, each hormone binds to a distinct membrane receptor thus suggesting differential intracellular signaling. Therefore, we used a panel of inhibitors to define the pathway(s) that mediate the actions of these hormones. Whereas, the actions of EGF required only the Ras-mitogen-activated protein, MAP kinase, those of insulin were mediated by equal participation of both the Ras-MAP kinase and protein kinase C, PKC cascades. Despite differences in signaling pathways triggered by each hormone receptor, the activation of apoA-I transcription required the participation of a single transcription factor, Sp1. Furthermore, EGF induction of transcription was attenuated by mutating the MAP kinase site at amino acid, Thr(266) rendering Sp1 phosphorylation deficient. In summary, EGF stimulation of apoA-I expression is mediated solely by the Ras-MAP kinase cascade and enhanced activity of this pathway requires Sp1 with an intact phosphorylation site at Thr(266). However, insulin induction of this gene is different and requires both Ras-MAP kinase and PKC pathways but their actions are also mediated by Sp1.
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PMID:Epidermal growth factor induction of apolipoprotein A-I is mediated by the Ras-MAP kinase cascade and Sp1. 1127 17

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