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)

Pure cholesterol associated in complexes with lipoproteins (whole serum and human low density lipoproteins) or esterified with succinic acid (cholesteryl succinate) and bound to albumin effectively suppresses 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase activity in hepatoma tissue culture (HTC) cells grown in lipoprotein-poor serum medium during short 4-hour) incubation periods. Simultaneous measurments of the kinetics of uptake of radioactive unesterified cholesterol of whole serum and cholesteryl succinate, their conversion to lipid products, and the decay in enzyme activity, suggest that the cholesterol-induced suppression is mediated by the sterol itself rather than by inhibitory lipid products derived from its metabolism. Several cholesterol derivatives such as cholestenone, 7-ketocholesterol, and 7alpha-and 25-hydroxycholesterol also suppress reductase activiy in HTC cells and are significantly more inhibitory than the pure cholesterol preparations. The decrease in enzyme activity produced by cholesterol and its derivatives is concentration-dependent and specific. [1-14C]Oleate incorporation experiments indicate that cholesterol ester formation in HTC cells is not increased at inhibitory concentrations of the steroids. These data suggest that sterol ester formation is not an obligatory process in the feedback control of HMG-CoA reductase activity. The half-life of the reductase (3 to 4 hours) is not significantly changed by cycloheximide, plus or minus whole serum, and cholesteryl succinate. In contrast, the half-life is strongly reduced when HTC cells are incubated with cycloheximide plus maximal concentrations of 25-hydroxycholesterol, 7-ketocholesterol, or cholestenone, resulting in t1/2 values of 24, 36, and 60 min, respectively. Increasing concentrations of whole serum and cholesteryl succinate have no significant effect on the apparent rate constant of inactivation of the enzyme, whereas its apparent rate of synthesis is decreased 3- and 10-fold, respectively. These results are reversed with oxygenated steroid inhibitors. The rate of synthesis of reductase is essentially unchanged as the concentrations of 25-hydroxycholesterol, 7-ketocholesterol, and cholestenone are increased in the culture medium, whereas the apparent rate constant for degradation is increased 9-, 7-, and 3-fold, respectively. HMG-CoA reductase activity in HTC cells thus appears to be modulated by two different mechanisms in which steroid structure is important. Whole serum and cholesteryl succinate specifically decrease the rate of enzyme synthesis, while 25-hydroxycholesterol, 7-ketocholesterol, and cholestenone increase the rate of inactivation of the reductase.
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PMID:Inhibition of 3-hydroxy-3-methylglutaryl coenzyme A reductase activity in hepatoma tissue culture cells by pure cholesterol and several cholesterol derivatives. Evidence supporting two distinct mechanisms.20l. 17 60

Unlike the normal liver, numerous transplantable rodent and human hepatomas are unable to alter their rate of sterol synthesis and 3-hydroxy-3-methylglutaryl coenzyme A (HMG-GoA) reductase [mevalonate: NADP+ oxidoreductase (CoA-acylating), EC 1.1.1.34] activity in response to a dietary cholesterol challenge. It has been suggested that this metabolic defect is linked to the process of malignant transformation. Hepatoma 7288C "lacks" feedback regulation of cholesterol synthesis when grown in vivo but expresses this regulatory property when grown in vitro (then called HTC). Therefore, it was used as a model system to answer whether an established hepatoma cell line that modulates its rate of cholesterol synthesis in vitro can express this property when grown in vivo, and whether cells reisolated from the tumor mass have the same regulatory phenotype as before transplantation. Our results show that long-term growth of hepatoma 7288C in tissue culture has not caused a biotransformation that permits feedback regulation of HMG-CoA reductase when the cells are transplanted back into host animals. In addition, HTC cells reisolated from the tumor mass and established in tissue culture continue to have the ability to regulate HMG-CoA reductase activity. Therefore, malignant transformation is not categorically linked to the loss of the cellular components necessary to regulate sterol synthesis and HMG-CoA reductase activity.
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PMID:Comparison of regulation of 3-hydroxy-3-methylglutaryl coenzyme A reductase in hepatoma cells grown in vivo and in vitro. 18 7

The mechanism of action of serum lipoproteins and 25-hydroxycholesterol on 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase activity in hepatoma tissue culture (HTC) cells was investigated using antiserum against purified rat liver HMG-CoA reductase (Heller, R. A., and Shrewsbury, M. A. (1976)J. Biol. Chem. 251, 3815-3822). This antiserum cross-reacted with solubilized and membrane-bound HMG-CoA reductase from HTC cells. The enzymes from rat liver and HTC cells appeared antigenically identical. The increase in HMG-CoA reductase activity of HTC cells grown in medium which lacked serum lipoproteins was shown to be due to an increase in immunoprecipitable enzyme. In contrast, the 25-hydroxycholesterol suppression of reductase activity leads to a reduction in the antigenicity of the enzyme rather than a decrease in its number of molecules.
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PMID:Regulation of 3-hydroxy-3-methylglutaryl coenzyme a reductase in minimal deviation hepatoma 7288C. Immunological measurements in hepatoma tissue culture cells. 19 Feb 21

When cell cultures were incubated with certain oxygenated derivatives of cholesterol which specifically depress 3-hydroxy-3-methylglutaryl-coenzyme A reductase activity (i.e. 25-hydroxycholesterol, 7-ketocholesterol, or 20 alpha-hydroxycholesterol), a number of consequences followed the decline in enzyme activity. DNA synthesis, expressed in terms of (methyl-3H)thymidine incorporation/mg of cellular protein, declined progressively after the addition of an inhibitor to L-cell cultures and had essentially ceased by 80 h. A decline in the rate of cell growth, as determined by the measurement of cellular protein, became apparent about 24h after the addition of the inhibitor. These effects of the inhibitory sterols were reversed when mevalonate or cholesterol was added to the medium within 48 h after the addition of the inhibitor. Specific rates of uridine incorporation into RNA and of leucine into protein were not significantly altered during 80 h of incubation with the inhibitor. Sterol synthesis was suppressed; and the concentration of desmosterol in L-cells declined to about one-half of the control level within 36 h. Since phospholipid concentrations were not altered significantly by the treatment, the molar ratio of sterol to phospholipids declined to levels lower than any previously reported for mammalian cells. Changes in the molar ratio of sterol to phospholipids in plasma membranes isolated from L-cells that had been incubated with 25-hydroxycholesterol or cholesterol were in agreement with those found in cells under similar conditions. The inhibitory sterols caused a similar but slower decline in the concentrations of unesterified and total cholesterol in fetal mouse liver cell cultures and rat hepatoma cell cultures.
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PMID:Consequences of blocked sterol synthesis in cultured cells. DNA synthesis and membrane composition. 83 34

In mouse hepatoma Hepa-1c1c7 cultures, polycyclic aromatic compounds such as benzol[a]pyrene and 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD; dioxin) activate the Cyp1a-1 (cytochrome P(1)450) and Nmo-1[NAD(P)H:menadione-oxidoreductase] genes, two members of the aromatic hydrocarbon (Ah)-responsive gene battery. Mevinolin is known to inhibit 3-hydroxy-3-methylglutaryl CoA (HMG-CoA) reductase (EC 1.1.1.34), the rate-limiting step in cholesterol biosynthesis. We show here that in the absence of TCDD, mevinolin markedly increases Cyp1a-1 transcription, CYP1A1 mRNA and protein levels and enzyme activity, and NMO1 mRNA concentrations. Addition of mevalonate, the product of HMG-CoA reductase activity, fails to reverse the effects of mevinolin. In fact, when used at high concentrations, mevalonate activates Cyp1a-1 transcription. Mevinolin-induced Cyp1a-1 gene activation: (1) occurs independently of the lipid content of the growth medium, (2) is not suppressed by adding 25-hydroxycholesterol, which blocks MHG-CoA reductase activity, and (3) requires a functional Ah receptor and unimpaired nuclear translocation of the receptor. It is possible that an unknown metabolite (or metabolites) of mevinolin activates Cyp1a-1 expression and that high concentrations of mevalonate act via the same mechanism. Using chimaeric plasmids that contain different lengths of Cyp1a-1 5' flanking regions fused to the bacterial neomycin (neo) gene, we find that the mevinolin effect on Cyp1a-1 induction requires the 5' flanking sequences between -1647 and -824, which are also needed for TCDD induction. Mevinolin, however, is not a ligand for the Ah receptor. Gel mobility shift assays revealed that Cyp1a-1 activation caused by mevinolin does not involve the ligand-dependent formation of a functional Ah receptor-dependent DNA-binding complex, but instead appears to be correlated with release of a putative repressor from its cognate DNA site. Our results suggest that the basel level of Cyp1a-1 transcription is maintained by an unknown negative regulatory factor. We propose that Cyp1a-1 transcriptional activation can result not only from induction by polycyclic aromatic compounds but also from derepression by mevinolin, independent of HMG-CoA reductase inhibition.
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PMID:Transcriptional derepression of the murine Cyp1a-1 gene by mevinolin. 131 Dec 72

The human hepatoma cell line, HepG2, was cultured with 25 OH cholesterol, a potent inhibitor of HMG-CoA reductase, in order to examine the effect of the oxysterol on apo E synthesis and secretion. Treatment of cells with oxysterol (2.5 microM) resulted in a greater than 90% inhibition of HMG-CoA reductase activity and a 3-fold reduction in its cognate mRNA level. However, apo E mRNA level and secretion were not affected after 24 h of drug treatment. This drug treatment was associated with a reduction in both cellular free and esterified cholesterol levels by 50% and 40%, respectively. Exposure of HepG2 cells to an ACAT inhibitor, the Sandoz compound (58-035) for 24 h, at a concentration of 5 micrograms/ml, resulted in a 30% increase and 70% decrease in the intracellular levels of free and esterified cholesterol, respectively. Under this regimen of drug treatment, the level of apo E mRNA was increased by approximately 70%, while HMG-CoA reductase mRNA level was decreased by 35%. When the cells were exposed to the combination of the ACAT inhibitor and 25 OH cholesterol, the cellular levels of free and esterified cholesterol were reduced by 30% and 80%, respectively. This combination of drugs had no effect on apo E mRNA; however, the level of HMG-CoA reductase mRNA was decreased by 3.5-fold. Taken together, the data suggested that reduction in the intracellular levels of either free or esterified cholesterol had no effect on apo E mRNA level. By contrast, a small increment in cellular free cholesterol content was associated with a significant induction in apo E mRNA level. Furthermore, 25 OH cholesterol caused a significant redistribution (50%) of apo E from the HDL fraction to the d greater than 1.21 g/ml infranatant. By using high performance liquid chromatography and molecular sieve columns, it was found that the appearance of a lipid-poor apo E particle was not an artifact of ultracentrifugation. This particle contained 85 wt% protein and 15 wt% of free cholesterol and phospholipid. The results suggested that a lipid-poor apo E particle was secreted by the HepG2 cells under certain circumstances.
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PMID:The effect of 25-hydroxycholesterol on the regulation of apolipoprotein E mRNA levels and secretion in the human hepatoma HepG2. 132 83

3-Hydroxy-3-methylglutaryl-coenzyme A (HMG-CoA) reductase inhibitor is known to have an inhibitory effect on cell growth in addition to a cholesterol-lowering effect. This study examined the effect of pravastatin, a potent inhibitor of HMG-CoA reductase, on the survival of AH130 hepatoma-bearing rats. Pravastatin (1, 2, or 8 mg/kg body weight) was intraperitoneally injected once a day into tumor-bearing rats. The difference in the survival curves was significant between the controls and the rats treated with 8 mg/kg of pravastatin (P < 0.019 by logrank test) but not between the controls and the rats treated with 1 or 2 mg/kg of the inhibitor. The tumor volume was significantly decreased in the rats treated with 8 mg/kg of pravastatin (P < 0.05). These observations showed that intraperitoneal injection of pravastatin could improve the survival of AH130 hepatoma-bearing rats and had an inhibitory effect on the growth of the ascites form tumor.
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PMID:Effect of pravastatin, a potent 3-hydroxy-3-methylglutaryl-coenzyme A reductase inhibitor, on survival of AH130 hepatoma-bearing rats. 148 25

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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