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)

This work describes the molecular mechanism of hormonal modulation of fatty-acid peroxisomal beta oxidation in liver. Morris 7800C1 hepatoma cells and isolated hepatocytes were cultured in the presence of myristic acid (1 mM) and tetradecylthioacetic acid, a 3-thia fatty acid (50 microM), separately or in combination with dexamethasone (0.25 microM) or insulin (0.4 microM). Myristic acid stimulated acyl-CoA oxidase and a synergistic action was observed with dexamethasone. Parallel changes were recognized in enzyme protein and mRNA levels as quantified from immunoblots and Northern analyses. Myristic acid and tetradecylthioacetic acid had similar effects on this enzyme, while insulin inhibited the basal activity and blocked all inductions by the fatty acids and dexamethasone. Parallel mRNA and immunoblot analyses of the subsequent enzymes in the peroxisomal beta-oxidation pathway, enoyl-CoA hydratase/3-hydroxyacyl-CoA dehydrogenase/delta 3,delta 2-enoyl-CoA isomerase and 3-oxoacyl-CoA thiolase, showed an even stronger induction by tetradecylthioacetic acid and dexamethasone, while the counteraction by insulin was maintained in both 7800C1 hepatoma cells and hepatocytes. In hepatoma cells, the thiolase always showed the most pronounced induction (about 40-fold) after 14 days, with parallel changes in protein and mRNA levels. The results suggest that the changes in peroxisomal beta-oxidation enzymes in 7800C1 hepatoma cells are due to a major effect on steady-state mRNA levels giving rise to corresponding alterations in enzyme protein. These results may be explained by regulation at the level of transcription of corresponding genes, but mRNA stability changes and/or translational effects may also be of importance.
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PMID:Induction of the three peroxisomal beta-oxidation enzymes is synergistically regulated by dexamethasone and fatty acids, and counteracted by insulin in Morris 7800C1 hepatoma cells in culture. 135 67

Perfluorooctanoic acid (PFOA) is a peroxisome proliferator. The aim of this study was to test for its ability to act as a positive modulator of hepatocarcinogenesis, in the so-called biphasic (initiation by diethylnitrosamine 200 mg/kg ip followed by treatment with the suspected modulators) and triphasic (initiation by the same dose of diethylnitrosamine followed by a selection procedure for 2 weeks consisting of giving 2-acetylaminofluorene and in the middle of this treatment a single dose of CCl4 followed by treatment with the suspected modulators) protocols of liver carcinogenesis. In both protocols treatment with PFOA increased the incidence of malignant hepatocellular carcinoma (HCC). As compared to phenobarbital, the modulating effect of PFOA is more pronounced in a biphasic than in the triphasic protocol. In parallel with positive modulation of HCC, PFOA also selectively induced the peroxisomal acyl-CoA oxidase activity and, to a lesser extent, catalase activity.
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PMID:The modulation of rat liver carcinogenesis by perfluorooctanoic acid, a peroxisome proliferator. 168 73

For the analysis of the molecular mechanism of the action of peroxisome proliferators, we attempted to establish the optimal conditions for obtaining the effects of the chemicals in vitro, employing an established cell line, Reuber rat hepatoma H4IIEC3. Histochemical analyses revealed a marked increase in the number, size, and catalase content of peroxisomes in the cells cultured on a medium containing 0.5 mM ciprofibrate, a peroxisome proliferator. The activity of acyl-CoA oxidase, the initial enzyme of the peroxisomal beta-oxidation system, was increased by more than 10-fold by the same treatment. Catalase was also induced significantly, whereas the activities of glutamate dehydrogenase and lactate dehydrogenase, mitochondrial and cytosolic marker enzymes, did not change upon the treatment. Immunoblotting and RNA-blotting analyses confirmed the increases in the amount of protein and mRNA for all the three enzymes of the peroxisomal beta-oxidation system. Cell fractionation experiments gave a partial separation of peroxisomes from other organelles for the induced culture. Thus, H4IIEC3 cells offer a good in vitro model system of the induction of peroxisomes and peroxisomal beta-oxidation enzymes by peroxisome proliferators.
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PMID:Proliferation of peroxisomes and induction of peroxisomal beta-oxidation enzymes in rat hepatoma H4IIEC3 by ciprofibrate. 212 77

(1) The growth of 7800 C1 Morris hepatoma cells was inhibited by dexamethasone. The inhibition was detectable at 1 nM and half-maximal effect was obtained with approx. 13 nM dexamethasone. About 80% growth inhibition was obtained with 250 nM of the hormone and the growth rate was normalized on cessation of treatment. (2) These hepatoma cells contain dexamethasone receptors with equilibrium dissociation constant of 0.24 nM and a capacity of 24 fmol/mg cell protein. Treatment of the cells with insulin did not change these dexamethasone binding properties. Binding experiments showed that 2, 10 and 100% of the receptors were occupied when the cells were incubated with 1 nM, 7 nM and 250 nM dexamethasone, respectively. (3) Insulin completely counteracted the growth inhibition by dexamethasone and antagonized the induction of peroxisomal acyl-CoA oxidase and tyrosine aminotransferase caused by the glucocorticoid. (4) Micro-flow fluorometry showed that the cultures had a major diploid DNA stem line and a minor tetraploid stem line. Changes in diploid, tetraploid and S phase cells of the diploid stem line were scored. Dexamethasone reduced the proportion of cells in S phase and of tetraploid cells. Insulin partly reversed the action of dexamethasone in S phase, but prevented the reduction in tetraploid cells caused by dexamethasone. (5) The mitotic rate was significantly reduced by dexamethasone and this effect was reversed by insulin. (6) Continuous [3H]methyl-thymidine labelling showed a growth fraction of unity in all treatment groups. (7) It is concluded that dexamethasone induces growth inhibition by reducing the G1-S transition. Insulin is able to counteract this effect and increase the rate of DNA synthesis.
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PMID:Dexamethasone inhibition of rat hepatoma cell growth and cell cycle traverse is reversed by insulin. 218 31

1. Uptake and binding of dexamethasone to glucocorticoid receptor has been studied in Morris hepatoma 7800 C1 cells in relation to its effect on cell growth and peroxisomal beta-oxidation. 2. Intact cells showed saturable, specific dexamethasone binding of limited capacity and Scatchard analysis revealed one single class of binding sites with equilibrium dissociation constant (Kd) of 0.24 nM similar to other glucocorticoid receptors. However, the binding capacity of 24 fmol/mg cell protein is less than 5% of previously reported values. 3. Uptake of [3H]dexamethasone by intact cells was temperature dependent giving a linear Arrhenius plot with a calculated energy of activation of 58.5 kJ mol-1 x degree-1. 4. Cytosol fractions had specific binding proteins for glucocorticoid hormones with sedimentation coefficient of ca 7S. No specific binding sites for [3H]dexamethasone was demonstrated in purified membrane fractions. 5. Dexamethasone and the synthetic fatty acid analogue tetradecylthio acetic acid (TTA) both inhibited the growth of the 7800 C1 cells and induced the peroxisomal acyl-CoA oxidase activity. A combination of the two compounds gave additive effects. Both these effects of dexamethasone and TTA were counteracted by insulin. 6. We conclude that dexamethasone induces growth inhibition and enzyme induction by binding to functional intracellular glucocorticoid receptors. The action of dexamethasone is consistent with a dissolution in the membrane from where it diffuses passively into the cell and binds to specific receptors in an energy dependent step. 6. The synergistic action of dexamethasone and TTA and the counteraction exerted by insulin are not due to changes in the dexamethasone receptor affinity or binding capacity.
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PMID:Uptake and receptor binding of dexamethasone in cultured 7800 C1 hepatoma cells in relation to regulation of cell growth and peroxisomal beta-oxidation. 228 23

Morris hepatoma 7800C1 cells (a Wistar rat cell line) were exposed to 100 microM arachidonic acid in the medium for seven days. This treatment resulted in 150% and 60% increases (above control activities) in acyl-CoA oxidase (which catalyzes the first step in peroxisomal beta-oxidation) and catalase activities, respectively. Arachidonic acid (C20:4) can be metabolized to 20- and 19-hydroxy-arachidonic acid by cytochrome P-450IVA and it was shown that our cells are capable of forming 20-hydroxyarachidonic acid. However, 20-hydroxyarachidonic acid (0.1-0.8 microM, 4 days) had no effects on lauroyl-CoA oxidase and catalase activities in Morris hepatoma cells. Treatment of 7800C1 cells with 100 microM all-trans-retinoic acid resulted in inductions of catalase (160% above the control activity) and carnitine acetyltransferase (140% above the control activity) activities. The activity of lauroyl-CoA oxidase was often, but not always, slightly induced by treatment with all-trans-retinoic acid. When all-trans-retinoic acid was administered together with arachidonic acid, these two compounds had a synergistic effect on the induction of acyl-CoA oxidase activity (almost 700% above the control activity). However, treatment of Morris hepatoma cells with the man-made peroxisome proliferator, perfluorooctanoic acid, together with all-trans-retinoic acid did not result in any synergistic effect on this same enzyme activity. In summary, this study (1) corroborates findings from transfection experiments indicating that the heterodimer PPAR-RXR alpha activates transcription of the acyl-CoA oxidase gene using the Morris hepatoma cell line; (2) shows that arachidonic acid induces the activity of lauroyl-CoA oxidase; (3) suggests that transcription of the catalase gene is not regulated by a PPAR-RXR alpha heterodimer in this system; and (4) demonstrates that peroxisome proliferation in Morris hepatoma cells by perfluorooctanoic acid is not as dependent on the level of retinoic acid as is the same process caused by arachidonic acid.
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PMID:Synergistic induction of acyl-CoA oxidase activity, an indicator of peroxisome proliferation, by arachidonic acid and retinoic acid in Morris hepatoma 7800C1 cells. 754 95

We compared the responses of the human Hep EBNA2 and rat FaO hepatoma lines to the peroxisome proliferator, clofibrate. Using spectrophotometrical assays performed with peroxisome-enriched fractions, the dose- and time-dependent increase of catalase and acyl-CoA oxidase activities were determined. For catalase activity a maximum stimulation of 1.2-fold for Hep EBNA2 and 1.7-fold for FaO lines was obtained. This increase was neither dose- nor time-dependent. The activity of the initial enzyme of the peroxisomal beta-oxidation system, acyl-CoA oxidase, was tested using two different biochemical assays. The maximum stimulation of acyl-CoA oxidase was 2.4 to 3-fold for human Hep EBNA2 and 6 to 11-fold for rat FaO lines. The specific activity of acyl-CoA oxidase increased with the concentration of clofibrate and with the length of the treatment. Dot blot analyses carried out using mRNAs from FaO and Hep EBNA2 cells treated with 0.5 mM clofibrate for 5 days and from control cells, confirmed the increase in the level of acyl-CoA oxidase mRNAs from the clofibrate-treated cells. In the human cell line, the level of mRNA encoding for the peroxisomal bifunctional enzyme which is involved in the second and the third step of the beta-oxidation system, was also increased by clofibrate treatment.
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PMID:Comparative effects of clofibrate on peroxisomal enzymes of human (Hep EBNA2) and rat (FaO) hepatoma cell lines. 765 3

Fatty acids and the peroxisomal proliferator, 3-tetradecylthioacetic acid (TTA) stimulate transcription of peroxisomal beta-oxidation enzymes. Recently, we have shown that their actions are markedly modulated by dexamethasone and insulin which show synergistic and inhibitory effects, respectively. In this study, we describe the regulation of the peroxisomal proliferator-activated receptor (PPAR), a member of the steroid-hormone-receptor superfamily, in a similar manner by hormones and fatty acids, supporting the hypothesis that PPAR may act as a ligand-activated transcription factor. Northern-blot analysis of steady-state mRNA levels revealed three different specific transcripts for PPAR of 10.2, 4.6 and 1.8 kb, and the former two being regulated in hepatic tissue, hepatocytes and hepatoma cells. Dexamethasone produced a pronounced overall stimulatory effect (15.3-fold) in rat hepatocytes, while insulin blocked this action completely. Minor inductions of PPAR mRNA (up to twofold induction) were observed when different fatty acids were administrated alone. However, in combination with dexamethasone, additive or synergistic actions, mounting to 24-fold stimulation, were observed, while insulin always exerted an over-riding down-regulatory effect. In non-fasting rats receiving dexamethasone, elevation of serum insulin, a slight increase in serum free fatty acids accompanied by PPAR mRNA level increases of 2.4-fold and stimulation of liver peroxisomal acyl-CoA oxidase mRNA were observed. Our results suggest that PPAR mRNA expression is under strict hormonal control and that the fatty acids and hormones affect PPAR mRNA levels in a manner analogous to the regulation of the peroxisomal beta-oxidation enzymes. The PPAR gene-regulating unit apparently contains hormone-response elements (HRE) for dexamethasone and insulin, which are thus functionally important for PPAR transcription in liver cells, making a significant enhancement or inhibition of the physiological actions of fatty acids possible.
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PMID:Dexamethasone and insulin demonstrate marked and opposite regulation of the steady-state mRNA level of the peroxisomal proliferator-activated receptor (PPAR) in hepatic cells. Hormonal modulation of fatty-acid-induced transcription. 795 33

In this study, Morris hepatoma 7800C1 cells (from rat) were exposed to 500 microM perfluorooctanoic acid (PFOA) in the culture medium for 7 days. This treatment resulted in inductions of catalase, lauroyl-CoA oxidase (which catalyzes the first step in peroxisomal beta-oxidation) and of cytochrome P-450IVA (specialized for omega- and omega-1 hydroxylation of fatty acids). Northern blot analysis revealed that the level of mRNA for peroxisomal fatty acyl-CoA oxidase was enhanced in cells treated with PFOA. Inductions of the enzymes mentioned above are generally connected with peroxisome proliferation in vivo. This work also includes a comparison between the activities of catalase, lauroyl-CoA oxidase, DT-diaphorase and glutathione transferase in rat liver homogenate and 7800C1 cells in order to investigate to what extent this cell line differs from the situation in vivo. The findings suggest that the cells selectively lost most of their peroxisomes during transformation into a cell line and subsequent propagation. The control activities of catalase and lauroyl-CoA oxidase (marker enzymes for peroxisomes) were only about 2% of the corresponding enzyme activities in rat liver. In addition, a morphological study revealed that the frequency of peroxisomes in 7800C1 cells is very low. The control activity of glutathione transferase in 7800C1 cells was 11% of the corresponding activity in rat liver homogenate, whereas the level of DT-diaphorase was virtually the same in 7800C1 cells as in rat liver. Electron microscopic investigation of the control cultures revealed all signs of viable cells, with well-developed cell organelles. Treatment of 7800C1 cells with 500 microM PFOA has little effect on cellular morphology.
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PMID:Effects of perfluorooctanoic acid--a potent peroxisome proliferator in rat--on Morris hepatoma 7800C1 cells, a rat cell line. 801 82

The contents of peroxisomal fatty acid beta-oxidation enzymes in three rat hepatoma cell lines, i.e., H4IIEC3 (H4), N1S1, and McA-RH7777 (H7), were measured by immunoblot analysis, and a significant difference in acyl-coenzyme A oxidase (AOX) content became evident. These cell lines were respectively infected with a recombinant virus to express significant amounts of AOX protein. The expressed AOX mainly localized in organelle, supposing peroxisomes, and was catalytically active. The cDNA-expression in H4, N1S1, and H7 cells enhanced 2.6-, 2.2-, and 1.0-fold beta-oxidation activity of lignoceric acid, respectively. The enhancement in H4 and N1S1 cells suggests that AOX is a rate-limiting enzyme in the very-long-chain fatty acid beta-oxidation system, in these cell lines.
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PMID:Peroxisomal acyl-coenzyme A oxidase is a rate-limiting enzyme in a very-long-chain fatty acid beta-oxidation system. 802 99


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