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 investigated the effects of polymyxin B (PMB), an antibiotic that binds to endotoxins, on the uptake and degradation of low density lipoproteins (LDLs) in HepG2 cells, a highly differentiated human hepatoma cell line. The results showed that PMB very effectively enhanced the binding, internalization, and degradation of LDL in HepG2 cells. The PMB-mediated enhancement of LDL uptake was not dependent on the LDL receptor-mediated pathway, as blockage of the LDL receptor by use of a monoclonal anti-LDL receptor antibody had no effect on the PMB-mediated cellular processing of LDL and PMB-mediated enhancement of LDL uptake did not cause an increase in cholesterol esterification. In addition, chloroquine and colchicine, which inhibit lysosomal degradation and cellular endocytosis, respectively, diminished PMB-enhanced degradation of LDL, indicating that PMB mediates uptake through a pathway similar to the LDL receptor-mediated pathway. The PMB-mediated uptake of LDL was sensitive to treatment with phospholipase C and pronase and was dependent on the presence of Ca2+. PMB caused similar changes in human skin fibroblasts, bovine smooth muscle cells, and bovine endothelial cells, which suggests that PMB-enhanced LDL uptake is a general cellular phenomenon. Our results thus indicate that PMB increases cellular catabolism of LDL through an endocytotic pathway not involving the LDL receptors.
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PMID:Polymyxin B enhances low density lipoprotein catabolism in hepatic and extrahepatic cells. 131 96

Regulation of low-density-lipoprotein-receptor activity by low-density lipoprotein (LDL), cholesteryl-ester-rich beta-migrating very-low-density lipoprotein (beta-VLDL) and non-lipoprotein cholesterol was investigated in the human hepatoma cell line Hep G2. Competition studies indicate that LDL and beta-VLDL are bound to the same recognition site, tentatively the LDL receptor. The regulatory response of the LDL receptor upon prolonged incubation with LDL or beta-VLDL was, however, markedly different. 22 h preincubation of Hep G2 cells with excess LDL caused a partial down regulation to 31% of the initial level of the high-affinity association of LDL and 26% of the high-affinity degradation of LDL, while with beta-VLDL a complete down regulation of the LDL-receptor activity is observed. Preincubation of Hep G2 cells with beta-VLDL for 22 h led to a fourfold increase in intracellular cholesterol esters and a twofold increase in acyl-coA:cholesterol acyltransferase activity. With LDL, the amount of intracellular cholesterol esters is increased 1.6-fold. The more effective down regulation of LDL receptors by beta-VLDL as compared to LDL can be explained by the more effective intracellular cholesterol delivery with beta-VLDL than with LDL. Preincubation of Hep G2 cells for 22 h with acetylated LDL hardly influenced the LDL-receptor activity. Non-lipoprotein cholesterol, however, caused a complete down regulation of LDL-receptor activity at even lower extracellular cholesterol concentrations than with beta-VLDL. The complete down regulation of LDL receptors by non-lipoprotein cholesterol is not accompanied by a significant increase in acyl-coA:cholesterol acyltransferase activity, while the intracellular cholesterol ester concentration is only increased 1.6-fold. It is suggested that the effectiveness of non-lipoprotein cholesterol to regulate LDL receptors is caused by its efficiency to reach the sterol regulatory site. The inability of LDL to down regulate its receptor completely can thus be explained by the inability of LDL to deliver cholesterol adequately at the intracellular regulatory site of the LDL receptor. The observed complete down regulation of the LDL receptor by beta-VLDL may be responsible for the cholesterol-rich-diet induced, complete down regulation of LDL-receptor-mediated clearance of LDL in vivo.
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PMID:Complete down-regulation of low-density-lipoprotein-receptor activity in the human hepatoma cell line Hep G2 by beta-migrating very-low-density lipoprotein and non-lipoprotein cholesterol. Different cellular regulatory pools of cholesterol. 131 43

A serum-free chemically defined medium (CDM) has been developed which sustains the growth in culture of the highly differentiated human hepatoma cell line Hep G2. Unlike rodent hepatoma lines, Hep G2 cells in serum-free medium have an absolute requirement for lipoprotein lipids (either low density lipoprotein (LDL) or high density lipoprotein (HDL)) for growth. In the presence of LDL (or HDL) growth was further enhanced by insulin, triiodo-L-thyronine, 17 alpha-ethinylestradiol but not by epidermal growth factor (EGF). On type I collagen gels cells cultured in CDM were contact inhibited and formed monolayers. This contrasted with the pattern of growth of cells cultured in the presence of serum on type I collagen gels and cells cultured on tissue-culture plastic in either CDM or medium containing serum which formed foci of multilayered cells. Expression of the LDL receptor and HMG-CoA (3-hydroxy-3-methylglutaryl coenzyme A) reductase genes was comparable in Hep G2 cells cultured in CDM and serum-containing medium. Furthermore, the binding and internalisation of 125I-LDL at 37 degrees C was modulated by hormones that have previously been shown to affect LDL receptor levels in liver in vivo or in hepatocytes cultured in serum-containing medium in vitro. The culture system described provides a basis for studying the regulation of hepatocyte-specific functions by soluble factors (either plasma- or cell-derived) and cell-substratum interactions in a human liver cell line.
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PMID:Growth requirements and expression of LDL receptor and HMG-CoA reductase in Hep G2 hepatoblastoma cells cultured in a chemically defined medium. 133 14

During lipolysis of chylomicron triacylglycerol by lipoprotein lipase, arachidonic acid (AA) esters are hydrolyzed at a slower rate than the predominant 16-18 carbon fatty acid esters. The further metabolism of the AA that is hereby enriched in the chylomicron remnant acylglycerols has not been investigated. In the present study, we examined the low density lipoprotein (LDL) dependent and independent metabolism of [14C]AA present in chylomicron remnants in the human hepatoma cell line Hep G2. Mesenteric duct cannulated rats were fed [14C]AA and [3H]cholesterol in corn oil, and the chyle obtained was injected intravenously into hepatectomized rats to form chylomicron remnants labeled with [14C]AA in the triacylglycerol (TG) and with 3H in the cholesteryl ester portion. The remnants were then incubated with Hep G2 cells. The uptake of [14C]AA within 2-4 h was similar to that of [3H]cholesteryl ester. After uptake into the cells, [14C]AA was preferentially incorporated into phospholipids, a high proportion being found in phosphatidylcholine, phosphatidylethanolamine and phosphatidylinositol. [14C]AA and [3H]cholesteryl ester uptake were influenced to similar extents by factors unknown to regulate the LDL receptor and by an anti-LDL receptor antibody. Addition of compactin thus increased the uptake of [14C]AA by 50% in 4 h and mevalonolactone decreased the uptake by 86%. Using an anti-LDL receptor antibody, 25.0% of [3H]cholesterol/cholesteryl ester and 37.7% of [14C]AA binding to the cells at 4 degrees C were blocked. There was no lipolysis of [14C]TG or [14C]diacylglycerol by lipase secreted into the medium during incubations.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Lipoprotein receptor mediated metabolism of [14C]arachidonic acid labeled chylomicron remnants by Hep G2 cells. 133 5

The effects of bunazosin, an alpha 1-adrenergic receptor antagonist, on low-density lipoprotein (LDL) receptor activity have been studied in cultured cells. Human skin fibroblasts, swine aortic smooth muscle cells and a human hepatoma cell line (Hep G2) were used for this study. Bunazosinm, at a concentration of 5 x 10(-5) to 10(-4) M, increased 125I-LDL uptake with all of the cell lines and 125I-LDL degradation with human skin fibroblasts and swine aortic smooth muscle cells. However, in human skin fibroblasts pretreated with lipoprotein deficient serum and Hep G2 cells, the degradation of 125I-LDL was decreased by bunazosin. These results suggest that bunazosin increases LDL receptor activity.
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PMID:Bunazosin enhances receptor-mediated endocytosis of low-density lipoproteins. 136 24

Fish oil supplementation in humans is often associated with an expanded low density lipoprotein (LDL) pool that is not thought to reflect increased production. Since data on clearance of LDL after fish oil supplementation (FO-LDL) are equivocal, normal volunteers (four men and three women) received ten capsules containing 3.6 g eicosapentaenoic acid and 2.9 g docosahexaenoic acid (approximately 2.5% total calories as methyl esters) for 2 weeks. Total plasma cholesterol was unchanged, but triglycerides decreased 30%. Low density lipoprotein cholesterol (LDL-C) and high density lipoprotein cholesterol (HDL-C) were unchanged. Analysis of the LDL particles revealed that increased esterified cholesterol caused the FO-LDL core/surface ratio to be greater than baseline LDL (BL-LDL), resulting in a shift in mean LDL density from 1.060 to 1.056. N-3 fatty acids in FO-LDL were also increased greater than 40% at the expense of n-6 and n-9 fatty acids. Human hepatoma HepG2 cells were used to study the effects of FO-LDL on LDL receptor activity and mRNA abundance for the LDL receptor, 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase, and various apolipoproteins associated with cholesterol metabolism. In this system FO-LDL reduced LDL receptor activity compared to BL-LDL. Scatchard analysis revealed that LDL receptor number (Bmax) was reduced to one-third normal (P less than 0.001) whereas particle binding affinity was unchanged. The mRNA abundance for the LDL receptor and apoA-I were also depressed, even by low concentrations (10 micrograms/ml and 20 micrograms/ml LDL protein) of FO-LDL as compared to BL-LDL. HepG2 cells incubated with FO-LDL had decreased cellular free cholesterol but increased cholesteryl esters. Thus, moderate supplementation with fish oil n-3 fatty acids in normal humans enriches their LDL particles in cholesteryl esters and n-3 fatty acids. These particles depress both LDL receptor activity and LDL receptor mRNA abundance in HepG2 cells.
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PMID:Low density lipoprotein from humans supplemented with n-3 fatty acids depresses both LDL receptor activity and LDLr mRNA abundance in HepG2 cells. 153 48

The regulation of low-density lipoprotein (LDL) receptor activity, protein synthesis, and cellular mRNA content was evaluated in the human hepatoma cell line Hep G2. Incubation of the cells with LDL led to a complete downregulation of LDL receptor mRNA and LDL receptor protein synthesis. This LDL regulation of the LDL receptor and its mRNA was both time- and concentration-dependent. In contrast to protein synthesis and cellular mRNA concentrations of the LDL receptor, which were reduced to undetectable levels by prolonged incubation in the presence of LDL, LDL receptor activity was reduced to only 44% of preincubation levels. These findings support the presence of a second metabolic pathway for LDL uptake in human hepatocytic cells. The effect of LDL on cellular LDL receptor expression was specific for LDL because incubation in the presence of HDL did not affect any of these study end points. The potential coordinate regulation of the expression of the LDL receptor with its principal ligands, apolipoproteins (apo) B and E, was also investigated. In contrast to the LDL receptor mRNA downregulation with LDL incubation, cellular apoB and apoE mRNA concentrations were not affected by either LDL or HDL. Secretion of apoB, however, was significantly increased by incubating Hep G2 cells with LDL. These findings indicate that, in contrast to LDL receptor which is regulated at the mRNA level, the ligands for the LDL receptor are regulated either co- or post-translationally.
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PMID:Regulation of LDL receptor, apoB, and apoE protein and mRNA in Hep G2 cells. 160 52

The comparative effects of simvastatin (a competitive inhibitor of HMG-CoA reductase) and ciprofibrate (another inhibitor of cholesterogenesis) on the incorporation of [14C]acetate and [3H]mevalonate into cholesterol HMG-CoA reductase activity, apo-B synthesis, LDL receptor, and their corresponding mRNAs, have been studied in the human hepatoma cell line Hep G2 and in human and rat hepatocytes in primary culture. Incubation of Hep G2 with simvastatin (0.01-1.5 microM) or ciprofibrate (25-100 microM) produced not only a marked inhibition of cholesterogenesis from [14C]acetate but also from [3H]mevalonate, an intermediate downstream of the HMG-CoA reductase reaction. However, in human and rat hepatocytes, cultured in similar conditions, simvastatin inhibited only the cholesterol synthesis from [14C]acetate, as expected. HMG-CoA reductase activity was greatly induced in Hep G2 and rat hepatocytes after incubation with simvastatin (up to 400% of controls), but not with ciprofibrate. Increased enzyme activity was accompanied by a higher cell content of reductase mRNA. Apo-B concentration in the medium of Hep G2 cells was 31% lower after 31 h incubation with simvastatin than in controls. However, neither simvastatin nor ciprofibrate modified the synthesis rate of apo-B or its mRNA level. Both LDL-receptor and its mRNA levels were raised by simvastatin at concentrations inhibiting cholesterol synthesis. Our data show that, in this human hepatoma cell line, HMG-CoA reductase competitive inhibition by simvastatin triggers a coordinate regulation of the expression of genes coding for reductase and LDL receptor but not for apo-B. Ciprofibrate, though efficient in inhibiting cholesterogenesis, did not induce the same regulatory reactions. The reason for this discrepancy is unknown.
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PMID:Regulation of HMG-CoA reductase, apoprotein-B and LDL receptor gene expression by the hypocholesterolemic drugs simvastatin and ciprofibrate in Hep G2, human and rat hepatocytes. 162 34

Uptake and degradation of chylomicron remnants by the human hepatoma cell line Hep G2 was studied. Mesenteric lymph was collected from rats and injected into hepatectomized rats to obtain chylomicron remnants. This remnant preparation was taken up and catabolized by Hep G2 cells. The uptake process was dependent on cell growth and was regulated by compactin (a HMG-CoA reductase inhibitor) which suppresses cholesterol synthesis and by mevalonolactone, which enhances cholesterol synthesis. A monoclonal anti LDL receptor antibody blocked binding of chylomicron remnants to Hep G2 cells to a degree, which was comparable to but generally lower than the suppression of low-density lipoprotein binding. The results thus indicate that in Hep G2 cells, chylomicron remnant uptake is regulated, similarly to low-density lipoprotein uptake and that a significant part of the remnant uptake is mediated through the LDL receptor.
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PMID:Regulation of chylomicron remnant uptake in the human hepatoma cell-line Hep G2. Role of the low-density lipoprotein receptor. 164 3

We have reported previously that NB-598 competitively inhibits human squalene epoxidase and strongly inhibits cholesterol synthesis from [14C]acetate in cultured cells. Furthermore, multiple oral administration of NB-598 decreased serum cholesterol levels in dogs (Horie, M., Tsuchiya, Y., Hayashi, M., Iida, Y., Iwasawa, Y., Nagata, Y., Sawasaki, Y., Fukuzumi, H., Kitani, K., and Kamei, T. (1990) J. Biol. Chem. 265, 18075-18078). In the present study, the effects of NB-598 on 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase and low-density-lipoprotein (LDL) receptor were examined using a human hepatoma cell line Hep G2. Incubation of Hep G2 cells with NB-598 for 18 h increased HMG-CoA reductase activity in a dose-dependent manner. However, the increase in activity induced by NB-598 was lower than that induced by L-654,969 (a potent HMG-CoA reductase inhibitor), although NB-598 inhibited cholesterol synthesis more potently than L-654,969. On the other hand, HMG-CoA reductase mRNA was increased to the same extent by both inhibitors. These results demonstrate that NB-598 does not inhibit the synthesis of non-sterol derivative(s) of mevalonate, which regulate HMG-CoA reductase activity at the post-transcriptional level. NB-598 increased the binding of 125I-LDL to Hep G2 cells. LDL receptor mRNA was also induced by NB-598. In the presence of LDL or cycloheximide, NB-598 did not increase LDL receptor activity. These results demonstrate that the induction of LDL receptor activity by NB-598 is due to increases in mRNA and protein through the inhibition of cholesterol synthesis at the squalene epoxidase step. From these observations, squalene epoxidase inhibitor is expected to be highly effective in the treatment of hypercholesterolemia and also is very useful as a research tool for studying the regulation of cholesterol metabolism.
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PMID:Effect of a novel squalene epoxidase inhibitor, NB-598, on the regulation of cholesterol metabolism in Hep G2 cells. 164 82

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