UMLS:C0019204 - FACTA Search

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)

Both glucocorticoids and cyclosporine are used to prevent rejection in organ transplant recipients. However, long-term treatment with these drugs is known to induce hyperlipidemia and premature development of atherosclerosis. In previous studies, we have shown that the immunosuppressive drug cyclosporine inhibits catabolism of low-density lipoproteins (LDL) mainly by reducing the expression of LDL-receptor messenger RNA (mRNA), thus explaining the increased plasma levels of LDL cholesterol observed in patients treated with cyclosporine. In the present study, our objective was to investigate the mechanism by which glucocorticoids increase plasma levels of LDL cholesterol. We studied the catabolism of LDL in the human hepatoma cell line HepG2. Our results show that hydrocortisone at physiologically relevant concentrations inhibits LDL binding, uptake, and degradation in a dose-dependent way. Moreover, hydrocortisone also reduces the expression of LDL-receptor mRNA in a dose-dependent way. Cyclosporine also has an additive inhibitory effect on hydrocortisone in the catabolism of LDL. The 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase inhibitor fluvastatin reverses the inhibitory effect of both hydrocortisone and cyclosporine. We conclude that treatment with hydrocortisone and/or cyclosporine induces increased plasma levels of LDL cholesterol because of reduced hepatic LDL receptor activity. HMG-CoA reductase inhibitors reverse this undesirable effect and thus reduce the risk of the development of atherosclerosis in patients subjected to immunosuppressive treatment.
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PMID:Additive inhibitory effect of hydrocortisone and cyclosporine on low-density lipoprotein receptor activity in cultured HepG2 cells. 932 21

The pyridine derivative cerivastatin is a new entirely synthetic and enantiomerically pure inhibitor of 3-hydroxy-3-methylglutaryl-CoA (HMG-CoA) reductase. As a sodium salt cerivastatin is present in the active, open ring form. Cerivastatin inhibited the membrane-bound (non-solubilized) HMG-CoA reductase of the native microsomal fraction isolated from rat liver with a Ki value of 1.3 x 10(-9) M. The reference compound lovastatin was 100-fold less potent and exhibited a Ki value of 150 x 10(-9) M. Cerivastatin inhibited the cholesterol synthesis in the human hepatoma cell line HepG2 cells with a similar IC50 value of 1.0 x 10(-9) M. In vivo studies reflected its high in vitro activity. In both rats and dogs, cerivastatin inhibited the hepatic [14C]cholesterol synthesis from [14C]acetate with an oral ED50 value of 0.002 mg/kg body weight, while lovastatin exhibited an oral ED50 value of 0.3 mg/kg in rats, showing again the ratio of 100 or more between cerivastatin and lovastatin. In the small intestine and testes, cerivastatin was at least 50-fold less active with oral ED50 values higher than 0.1 mg/kg, which is indicative for a high liver selectivity of cerivastatin. In cholestyramine-primed dogs cerivastatin dose-dependently lowered the serum cholesterol concentrations by up to 59% with 0.1 mg/kg after 20 days. Interestingly, the serum triglycerides were markedly reduced by 53 and 76% with 0.03 and 0.1 mg/kg, respectively. In normal chow fed dogs the low density lipoprotein (LDL) concentrations were reduced by up to 75% after 0.1 mg cerivastatin/kg. The ratio of HDL/LDL increased by 81% compared with a change of only 14% in the placebo treated control group. The antiatherogenic effect of cerivastatin was shown in rabbits fed a diet enriched with 0.2% cholesterol. After 9 weeks on diet 0.1 mg cerivastatin/kg decreased the accumulation of cholesterol ester in the arterial tissue by 73%. In summary, these data as compared to published data on other HMG-CoA reductase inhibitors demonstrate cerivastatin to be the most active compound in this class. Vastatins used in therapy are effective in mg doses, while cerivastatin offers a new low dose therapy in the microg range.
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PMID:Cerivastatin: pharmacology of a novel synthetic and highly active HMG-CoA reductase inhibitor. 939 80

5-Amino-4-imidazolecarboxamide riboside (AICAR) is known to stimulate rat liver 5'-AMP-activated protein kinase (AMPK). AMPK is the mammalian homologue of Snf1p in yeast, involved in derepression of glucose-repressed genes. We used AICAR to test if AMPK could also play a role in the regulation of glucose-dependent genes in mammalian cells. At a concentration which induces phosphorylation-dependent inactivation of HMG-CoA reductase, AICAR blocked glucose activation of three glucose responsive genes, namely L-type pyruvate kinase (L-PK), Spot 14 and fatty acid synthase genes in primary cultured hepatocytes, but was without any action on glucose phosphorylation to glucose 6-phosphate and on expression of PEPCK, albumin and beta-actin genes. AICAR was also found to inhibit activation of the L-PK gene promoter by glucose in transiently transfected hepatoma cells. Therefore our results suggest that AMPK is probably involved in the glucose signal pathway regulating gene expression in the liver.
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PMID:The 5'-AMP-activated protein kinase inhibits the transcriptional stimulation by glucose in liver cells, acting through the glucose response complex. 970 98

YM-16638 ([[5-[[3-(4-acetyl-3-hydroxy-2-propylphenoxy)propyl]thio]-1,3,4-++ +thiadiazol-2-yl] thio] acetic acid) showed a strong hypocholesterolemic effect in humans and monkeys. To clarify the mechanism of this hypocholesterolemic effect, the action of YM-16638 on cholesterol biosynthesis in the cultured human hepatoma cell line HepG2 and cynomolgus monkey liver was examined. Cholesterol biosynthesis activity derived from [14C]acetic acid, [3H/14C]mevalonic acid or [14C]isopentenyl pyrophosphate substrates was significantly decreased, but not that from [3H]farnesyl pyrophosphate or [3H]squalene substrates in HepG2 cells treated with YM-16638. Simultaneously, treatment of these cells with YM-16638 changed neither the rate of apolipoprotein B synthesis from [35S]methionine nor its secretion. In addition, the activities of hepatic cholesterol biosynthesis enzymes HMG-CoA reductase, mevalonate kinase (MK), isopentenyl pyrophosphate isomerase (IPPI), farnesyl pyrophosphate synthase (FPPS), squalene synthase and squalene epoxidase were measured in monkeys fed a diet supplemented with YM-16638. Among these enzymes, MK, IPPI and FPPS activities in the YM-16638-treated group significantly decreased by 38%, 56% and 30%, respectively, when compared to those from control animals receiving no drug treatment. These results indicate that YM-16638 has the characteristics of a cholesterol biosynthesis inhibitor.
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PMID:Effect of the hypocholesterolemic agent YM-16638 on cholesterol biosynthesis activity and apolipoprotein B secretion in HepG2 and monkey liver. 1008 20

Binding of [26,27-(3)H]25-hydroxycholesterol (25HC) to human hepatoma Hep G2 cells was saturated within 120 min. Two intracellular pools of 25HC were identified in a pulse-chase experiment: (i) an exchangeable pool which was in dynamic equilibrium with 25HC in the medium (t(1/2) of reversible exchange 15 min) and (ii) an unexchangeable pool which remained in cells during incubation in medium containing LPDS. 25HC from the exchangeable pool inhibits cholesterol biosynthesis, decreases the HMG CoA reductase mRNA level and stimulates cholesterol acylation. 25HC from the unexchangeable pool was partially bound to cytosolic proteins and apparently utilized for metabolic transformation. Incubation of Hep G2 cells with [26,27-(3)H]25HC in the presence of a 30-fold molar excess of 3beta-hydroxy-5alpha-cholest-8(14)-en-15-one was found to cause (i) 2-fold decrease in the binding of [26,27-(3)H]25HC to cytosolic proteins (sedimentation constant of radioactive complex was 4-5 S) and (ii) the 35% inhibition of 25HC transformation to polar metabolites.
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PMID:Distribution of exogenous 25-hydroxycholesterol in Hep G2 cells between two different pools. 1010 Jun 35

The effects of 3-substituted Delta8(14)-15-ketosterols--3beta-(2-hydroxyethoxy)-, 3beta-(2-propenyloxy)-, 3beta-[2(R,S),2,3-oxidopropyloxy]-, 3beta-[2(R,S),2,3-dihydroxypropyloxy]-, 3beta-(2-oxoethoxy)-, 3beta-[2(R,S),2-acetoxy-3-acetamidopropyloxy]-, and 3beta-[2(R,S), 2-hydroxy-3-acetamidopropyloxy]-5alpha-cholest-8(14)-en-15-o nes--on cholesterol metabolism were studied in human hepatoma Hep G2 cells. 3beta-(2-Propenyloxy)-, 3beta-(2-oxoethoxy)-, and 3beta-[2(R,S),2, 3-oxidopropyloxy]-5alpha-cholest-8(14)-en-15-ones inhibited cholesterol biosynthesis without any effect on triglyceride biosynthesis, while 3beta-[2(R,S),2-acetoxy-3-acetamidopropyloxy]- and 3beta-[2(R,S), 2-hydroxy-3-acetamidopropyloxy]-5alpha-cholest-8(14)-en-15-o nes inhibited both cholesterol biosynthesis and triglyceride biosynthesis at concentrations exceeding 10 microM. 3beta-[2(R,S),2, 3-Dihydroxypropyloxy]-5alpha-cholest-8(14)-en-15-one, effectively inhibiting cholesterol biosynthesis, was found also to be toxic in Hep G2 cells at micromolar concentrations. 3beta-[2(R,S),2, 3-Oxidopropyloxy]-5alpha-cholest-8(14)-en-15-one effectively inhibited cholesterol acylation. All the tested compounds decreased the HMG-CoA reductase mRNA level at concentrations exceeding 10 microM; however, they did not affect the LDL receptor mRNA level. Among the compounds tested, only 3beta-hydroxy-5alpha-cholest-8(14)-en-15-one decreased the uptake and internalization of LDL-associated cholesteryl esters, being as effective as 25-hydroxycholesterol.
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PMID:Effect of 3-substituted Delta8(14)-15-ketosterols on cholesterol metabolism in hepatoma Hep G2 cells. 1023 1

Atherosclerosis is the leading cause of death in North America. It is characterized by thickening of the coronary artery wall by the formation of plaques, resulting in reduced blood flow. Plaque rupture and the consequent thrombosis may lead to sudden blockage of arteries and causing stroke and heart attack. In the last several decades, more than 250 factors associated with the development of coronary artery disease have been identified. Recently, a relationship between atherosclerosis and elevated homocysteine level in the blood has been established. The mechanism for the production of atherosclerosis by homocysteine has been investigated. When human hepatoma cells (HepG2) were incubated with 4 mM homocysteine, enhancements in the production of cholesterol and secretion of apolipoprotein B-100 were observed. The stimulatory effect on cholesterol synthesis was mediated via the enhancement of HMG-CoA reductase, which catalyzes the rate-limiting step in cholesterol biosynthesis. Cholesterol appears to play an important role in the regulation of apoB-100 secretion by hepatocytes. It is plausible that the increase in apoB secretion was caused by the elevated cholesterol level induced by homocysteine. The ability of homocysteine to produce a higher amount of cholesterol and promote the secretion of apoB would provide a plausible mechanism for the observed relationship between hyperhomocysteinemia and the development of atherogenesis and coronary artery disease.
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PMID:Atherosclerosis risk factors: the possible role of homocysteine. 1088 40

Lifibrol (4-(4'-tert. butylphenyl)-1-(4'-carboxyphenoxy)-2-butanol) is a new hypocholesterolemic compound; it effectively lowers low density lipoprotein (LDL) cholesterol. We studied the effects of lifibrol on the cholesterol metabolism of cultured cells. In the hepatoma cell line HepG2, Lifibrol decreased the formation of sterols from [14C]-acetic acid by approximately 25%. Similar to lovastatin, lifibrol had no effect on the synthesis of sterols from [14C]-mevalonic acid. Lifibrol did not inhibit 3-hydroxy-3-methylglutaryl-coenzyme A (HMG-CoA) reductase. Instead, cholesterol synthesis inhibition by lifibrol was entirely accounted for by competitive inhibition of HMG-CoA synthase. Lifibrol enhanced the cellular binding, uptake, and degradation of LDL in cultured cells in a dose dependent fashion. The stimulation of LDL receptors was significantly stronger than expected from the effect of lifibrol on sterol synthesis. In parallel, lifibrol increased the amount of immunologically detectable receptor protein. Stimulation of LDL receptor mediated endocytosis was observed both in the presence and in the absence of cholesterol-containing lipoproteins. In the absence of an extracellular source of cholesterol, both lifibrol and lovastatin induced microsomal HMG-CoA reductase. Co-incubation with LDL was sufficient to suppress the lifibrol mediated increase in reductase activity, indicating that lifibrol does not affect the production of the non-sterol derivative(s) which are thought to regulate HMG-CoA reductase activity at the post-transcriptional level. Considered together, the data suggest that the hypolipidemic action of lifibrol may, at least in part, be mediated by sterol-independent stimulation of the LDL receptor pathway. A potential advantage of lifibrol is that therapeutic concentrations do not interfere with the production of mevalonate which is required not only to synthesize sterols but also as a precursor of electron transport moieties, glycoproteins and farnesylated proteins.
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PMID:The effects of lifibrol (K12.148) on the cholesterol metabolism of cultured cells: evidence for sterol independent stimulation of the LDL receptor pathway. 1105 1

The optimal conditions for measuring 3-hydroxy-3-methylglutaryl-CoA (HMG-CoA) reductase activity in Reuber H35 hepatoma cells are described in this paper. Cells in the exponential phase of growth were lysed by incubation with Brij 97 detergent for 30 min. We used imidazole buffer supplemented with EDTA and leupeptine, two inhibitors of proteases. Disrupted cells were then centrifuged at 12,000 g. Although microsomes are usually reported as enzyme preparations for measuring HMG-CoA reductase, our data showed that hepatoma cells may be used without previous isolation of microsomes. The 12,000 g supernatant showed similar levels of total and specific activities to those found in the microsomal fraction obtained after 105,000 g centrifugation. The soluble fraction showed less than 10% of reductase activity. Reductase activity from Reuber H35 hepatoma cells increased proportionally to the reaction time from 30 to 90 min and to the amount of protein added in a range of 50-500 micrograms. Our modified method was very sensitive and reproducible, because very low specific activity (about 15-100 pmol min-1 per mg protein) could be quantified in different assay conditions obtaining similar values.
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PMID:An improved assay of 3-hydroxy-3-methylglutaryl-CoA reductase activity in Reuber H35 hepatoma cells without microsomes isolation. 1106 38

The assembly and secretion of apo B100 containing lipoproteins (i.e., VLDL) by the liver and cholesterol metabolism are interrelated on several different levels and for several different physiologic reasons. Firstly, hepatic VLDL is the major precursor for LDL, which in the human is the major vehicle responsible for transporting cholesterol to peripheral tissues. Secondly, cholesterol is supplied to many tissues by a specific uptake of LDL via LDL receptor, which is expressed in a regulated manner by most mammalian tissues. Thirdly, the rate of hepatic cholesterol biosynthesis and metabolism to bile acids correlates with production of VLDL. This apparent coordinate expression of cholesterol biosynthetic/catabolic enzymes and hepatic VLDL assembly/secretion are mediated at least in part through the sterol response element binding protein (SREBP) transcription factor family. Their gene targets include a plethora of enzymes that regulate glycolysis, energy production, lipogenesis and cholesterol catabolism. Studies of hepatoma cells overexpressing CYP7A1, the rate-limiting enzyme controlling bile acid synthesis, show that as a result of increased mature SREBP1, there is a coordinate induction of lipogenesis and the assembly and secretion of VLDL. These and additional studies show that the bile acid synthetic pathway and the VLDL assembly/secretion pathway are coordinately linked through SREBP-dependent transcription. Based on studies showing that within the liver acinus, the expression of CYP7A1 is mainly in the pericentral region while HMG-CoA reductase is mainly periportal, we propose that a 'metabolic zonal segregation' plays an important role in coordinate regulation of cholesterol and VLDL metabolism. This putative 'metabolic zonal segregation' may provide segregation of metabolic functions which may be mutually antagonistic. For example, there may be physiologic states in which the bile acid synthetic pathway may compete with the VLDL assembly/secretion pathway for a limited amount of cholesterol. Metabolic antagonism (e.g., competition for cholesterol) may be avoided via inducing SREBP-mediated transcription. Adaptation of catabolic hepatocytes to accommodate the expression of VLDL assembly/secretion may occur in response to activation of SREBP-mediated transcription. Support for these is discussed.
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PMID:Cholesterol and hepatic lipoprotein assembly and secretion. 1111 Oct 91

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