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)

Morris 7800 C1 hepatoma cells were grown in the presence of 80 microM tetradecylthioacetic acid (TTA), a peroxisome proliferator, for 1 year (long-term-treated cells). The growth of the Morris 7800 C1 hepatoma cells was inhibited in cells treated with TTA for up to 8 days. Treatment of the cells with TTA for 1 year did not reduce growth further. The growth inhibition was easily reversed by insulin (0.4 microM). Peroxisomal acyl-CoA oxidase (ACO) (EC 1.3.99.3) activity was increased 5.5 times in cells treated with TTA for 3 days. In the cells treated with TTA for 1 year the ACO activity was increased only two times. A similar ACO mRNA half-life (two times the control) was found in cells treated with TTA for 1 year and for 3 days. This implies a loss of effect of TTA on the transcription rate of the ACO gene in long-term-treated cells.
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PMID:The effects of long-term administration of 3-thia fatty acid, a peroxisome proliferator, to Morris 7800 C1 hepatoma cells. 821 84

The 3-thia fatty acid tetradecylthioacetic acid (TTA) has recently been shown to inhibit growth rate and increase peroxisomal acyl-CoA oxidase (ACO) (EC 1.3.99.3) activity in the Morris 7800 C1 hepatoma cells. Dexamethasone potentiates and insulin antagonizes these effects of TTA. We demonstrate here the metabolism of the 3-thia acids in these cells and the influence of insulin and dexamethasone on this. (1) The Morris 7800 C1 hepatoma cells exhibited a low omega-hydroxylation activity of the 3-thia acid (and lauric acid). The combination of TTA and dexamethasone induced the omega-hydroxylation and ACO activities in these cells. TTA alone induced ACO activity, but not omega-hydroxylation activity. Insulin counteracted the induction of both enzyme activities. These results indicate that these two enzyme activities are under similar but independent regulation. (2) Hepatoma cells grown with 80 microM TTA in the medium accumulated phospholipids containing the 3-thia fatty acid. After 7 days, TTA accounted for approx. 40% of the total fatty acids in the phospholipids. In addition, TTA affected the incorporation of endogenous fatty acids into phospholipids by decreasing the amounts of palmitic (C16:0) and vaccenic (C18:1(n-7)) acid and increasing the amounts of linoleic (C18:2(n-6)) and alpha-linolenic (C18:3(n-3)) acid in the phospholipids. (3) Dexamethasone increased the incorporation of labelled TTA into both phospholipids and triacylglycerol. Most of the labelled triacylglycerol formed was secreted into the medium. Insulin increased the incorporation of labelled TTA into triacylglycerol, but not into phospholipids. The labelled triacylglycerol formed was retained in the cells.
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PMID:Hormonal and substrate regulation of 3-thia fatty acid metabolism in Morris 7800 C1 hepatoma cells. 837 45

The effects of tetradecylthioacetic acid (TTA) (50 microM), dexamethasone (0.25 microM) and insulin (0.4 microM) on induction of peroxisomal acyl-CoA oxidase activity and mRNA levels were studied in short term cultures of Morris 7800C1 and MH1C1 hepatoma cells and of rat hepatocytes. Dexamethasone and TTA resulted in parallel increases in the enzyme activity and the steady state mRNA content in the hepatoma cells. Combination of dexamethasone and TTA resulted in a synergistic and parallel stimulation of both the enzyme activity and the mRNA levels up to 11-12-fold and maximal changes were observed after 14 days of treatment. Semiquantitative immunoblot analyses of acyl-CoA oxidase were in concordance with enzyme and mRNA results. Insulin counteracted the inductive effects of dexamethasone and TTA on all parameters. The half-life of the acyl-CoA oxidase mRNA increased after treatment with the 3-thia fatty acid (t1/2 = 10.0 h +/- 0.4) compared to control (t1/2 = 5.9 h +/- 0.3). However, in combination with dexamethasone there was no further increase in the mRNA stability (t1/2 = 8.0 h +/- 0.3). Southern blot analysis did not reveal any changes on the oxidase gene level in any treatment group. TTA alone or in combination with dexamethasone did not affect the expression of either the glucocorticoid receptor or the peroxisomal proliferator acting receptor (PPAR) steady state mRNA levels. In cultured hepatocytes the acyl-CoA oxidase was modified in similar manner by these treatments, but the changes were less marked. We suggest that the changes in peroxisomal acyl-CoA oxidase activity in hepatoma cells are due to a major effect on the level of mRNA, involving both transcriptional effects and message stabilization.
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PMID:Induction of peroxisomal acyl-CoA oxidase by 3-thia fatty acid, in hepatoma cells and hepatocytes in culture is modified by dexamethasone and insulin. 842 50

The effects of retinoids and the peroxisome proliferator clofibric acid on peroxisomal enzyme pathways were studied in hepatocytes from both rat and rabbit. Retinoic acid and retinol increased the activity of acyl-CoA oxidase in rabbit hepatocytes around 60% and around 30% in rat hepatocytes. Exposure to clofibric acid caused an increase in acyl-CoA oxidase activity of 115% in rat hepatocytes and of 40% in rabbit hepatocytes, indicating that rabbit is less sensitive to peroxisome proliferator than rat. Simultaneous exposure to clofibric acid and retinoids did not act additatively or synergistically. Both rabbit and rat hepatocytes expressed mRNA for the peroxisome proliferator activated receptor, (PPAR), although the transcript in rabbit was slightly smaller compared to that expressed in rat hepatocytes. The effect of retinoic acid in 7800 C1 Morris rat hepatoma cells, a cell line known to have an inducible peroxisomal beta-oxidation of fatty acids, was only slight with an increase of the acyl-CoA oxidase activity of 25% compared with control cells. As for clofibric acid, which gave a 2-fold induction of the acyl-CoA oxidase activity, the effect of retinoic acid was potentiated by dexamethasone. These cells also expressed mRNA for PPAR, with the same size as that found in rat hepatocytes. The oxidation of 3 alpha,7 alpha,12 alpha-trihydroxy-5 beta-cholestanoic acid (THCA), an intermediate in bile acid formation, in rat hepatocytes increased 110% by clofibric acid and around 80% by retinoic acid. In rabbit hepatocytes, clofibric acid increased the oxidation rate 75% and retinoic acid 100%. The results presented here show similarities in the effects of retinoids and clofibric acid on the acyl-CoA oxidase activity and the oxidation rate of THCA, since they increase these two peroxisomal activities in hepatocytes in vitro. A decrease in both these enzyme activities occurs during cultivation time in untreated primary hepatocyte cultures. The present data may therefore either be explained by an increased expression or an induced stability of the enzymes involved.
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PMID:The effect of retinoids and clofibric acid on the peroxisomal oxidation of palmitic acid and of 3 alpha,7 alpha,12 alpha-trihydroxy-5 beta-cholestanoic acid in rat and rabbit hepatocytes. 850 35

Chemical-induced peroxisome proliferation in rodent liver is postulated to occur via activation of members of the steroid hormone receptor superfamily, the peroxisome proliferation-activated receptors (PPARs). In the present study, the expression of the predominant liver subtype PPAR alpha was examined and compared to that of acyl-CoA oxidase (ACO), a marker for peroxisome proliferation and a prototype for genes regulated via PPARs. Despite the induction of both mRNA species in vivo by the peroxisome proliferator perfluorodecanoic acid (PFDA), dose response and time course indicate PPAR alpha and ACO are not controlled similarly. Messenger RNA levels for ACO increased rapidly in rat liver and declined over the subsequent 7 days following PFDA administration, while PPAR alpha mRNA increased slower and remained elevated over this period. In addition, PPAR alpha mRNA accumulation in PFDA-treated rats appears to be due primarily to hypophagia as pair feeding and complete caloric restriction result in a large increase in the concentration of this messenger RNA. Nuclear run-on experiments in vivo suggest that, unlike ACO, PFDA as well as caloric restriction results in accumulation of PPAR alpha mRNA which cannot be explained solely by transcriptional activation. These data indicated that PPAR alpha mRNA accumulation has a very small peroxisome proliferator-dependent component and that other factors may be involved. A rat hepatoma cell line was examined to determine the direct effect on peroxisome proliferators on PPAR alpha mRNA. PPAR alpha and ACO mRNA levels were increased rapidly in the rat hepatoma cell line FaO after treatment with PFDA or the prototypical peroxisome proliferator Wy 14,643. In this cell line, PPAR alpha mRNA levels are not affected by glucagon or insulin and in addition to peroxisome proliferators are induced in this cell line by oleic acid and dexamethasone. The latter treatment had the greatest effect on PPAR alpha mRNA accumulation while having a minimal effect on ACO mRNA. Treatment of FaO cells with actinomycin D prior to Wy 14,643 abolished ACO and PPAR alpha mRNA accumulation, demonstrating that there must be a transcriptional component of the peroxisome proliferator response. Therefore, although PPAR alpha is responsive to peroxisome proliferators and direct effects are observed in cell cultures, mRNA accumulation in vivo is predominantly posttranscriptional, and endogenous regulators such as glucocorticoids may play critical roles in the tissue- and developmentally specific expression of this steroid hormone receptor.
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PMID:Regulation of peroxisome proliferator-activated receptor-alpha mRNA in rat liver. 861 Oct 35

Enantiomers of a series of substituted analogs of 2-(4-chlorophenoxy) -acetic acid (CPAA) were synthesized and used to examine the influence of steric and structural parameters on peroxisome proliferation. The effects of these compounds were studied on the activation of the peroxisome proliferator-activated receptor alpha (PPAR alpha) in CV-1 cells using an in vitro co-transfection assay. Selected sets of isomers were tested for their ability to increase peroxisomal fatty acyl-CoA oxidase (ACO) activity in H4IIEC3 (rat Reuber hepatoma) cells. Of the series of 2-substituted analogs studied, the isomers of the nu-propyl and phenyl derivatives of CPAA showed a high degree of stereoselectivity [(S)-isomer >> (R)-isomer]. In general, the potency of the compound to activate the receptor increased with the size of the 2-alkyl substituent. Among the 4-chlorobenzyloxy- and 4-(4'-chlorophenyl)benzyloxy- analogs studied, 2-[4-(4'-chlorophenyl)-benzyloxy]-propanoic acid exhibited a high degree of stereoselectivity in both the biological systems studied [(R) >> (S)]. The congeners of 2-methyl substituted CPAA showed a reverse stereoselectivity (R) > (S)] as compared to the other 2-substituted analogs [(S) > (R)]. Our results indicate that (1) both structural and steric characteristics of CPAA analogs play an important role in the activation of rPPAR alpha and on stimulation of peroxisomal ACO activities, and (2) clofibric acid and analogs exert their peroxisome proliferative effects by interaction with a specific site on a protein. The enantiomers of the 2-nu-propyl and the 2-phenyl CPAA analogs may be useful as mechanistic probes in elucidating the nature of this binding site.
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PMID:Stereoselective effects of chiral clofibric acid analogs on rat peroxisome proliferator-activated receptor alpha (rPPAR alpha) activation and peroxisomal fatty acid beta-oxidation. 909 2

6,9,12,15,18-Heneicosapentaenoic acid (21:5n-3) (HPA), present in small amounts in fish oils, has been prepared by chemical elongation of eicosapentaenoic acid (EPA) and its biological properties compared with EPA and docosahexaenoic acid (DHA). All the double bonds of HPA are displaced one carbon away from the carboxyl group when compared to EPA. HPA is incorporated into phospholipids and into triacylglycerol in cell culture to a similar extent as EPA and DHA. HPA is a stronger inhibitor of the conversion of alpha-linoleic acid and dihomo-gamma-linolenic acid to arachidonic acid (AA) in hepatoma cells than are EPA, DHA, and AA. HPA is a poor substrate for prostaglandin H synthase and for 5-lipoxygenase, but it inactivates prostaglandin H synthase as rapidly as do AA, EPA, and DHA. HPA inhibits thromboxane synthesis in isolated platelets as efficiently as EPA. EPA, HPA, and DHA are all weak inducers of acyl-CoA oxidase in hepatoma cells. Therefore, since fish oils contain only small amounts of HPA, it is unlikely that this fatty acid is of particular significance for the biological effects of these oils, possibly with the exception that it is a strong inhibitor of AA synthesis.
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PMID:Heneicosapentaenoate (21:5n-3): its incorporation into lipids and its effects on arachidonic acid and eicosanoid synthesis. 925 58

We showed recently that a targeted null mutation in the murine sterol carrier protein 2-/sterol carrier protein x-gene (Scp2) leads to defective peroxisomal catabolism of 3,7,11, 15-tetramethylhexadecanoic acid (phytanic acid), peroxisome proliferation, hypolipidemia, and enhanced hepatic expression of several genes that have been demonstrated to be transcriptionally regulated by the peroxisome proliferator-activated receptor alpha (PPARalpha). As a broad range of fatty acids activates PPARalpha in vitro, we examined whether the latter effects could be because of phytanic acid-induced activation of this transcription factor. Dietary phytol supplementation was used to modulate the concentration of phytanic acid in C57Bl/6 and Scp2 (-/-) mice. We found that the serum concentrations of phytanic acid correlated well with the expression of genes encoding peroxisomal beta-oxidation enzymes and liver fatty acid-binding protein, which have all been demonstrated to contain functionally active peroxisome proliferator response elements in their promoter regions. In accordance with these findings, a stimulating effect on acyl-CoA oxidase gene expression was also observed after incubation of the rat hepatoma cell line MH1C1 with phytanic acid. Moreover, reporter gene studies revealed that phytanic acid induces the expression of a peroxisome proliferator response element-driven chloramphenicol transferase reporter gene comparable with strong peroxisome proliferators. In addition, the ability of phytanic acid to act as an inductor of PPARalpha-dependent gene expression corresponded with high affinity binding of this dietary branched chain fatty acid to recombinant PPARalpha. We conclude that phytanic acid can be considered as a bona fide physiological ligand of murine PPARalpha.
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PMID:Phytanic acid activates the peroxisome proliferator-activated receptor alpha (PPARalpha) in sterol carrier protein 2-/ sterol carrier protein x-deficient mice. 991 8

We have previously shown that a mixture of dietary conjugated derivatives of linoleic acid (conjugated linoleic acid, CLA) induces peroxisome proliferator-responsive enzymes and modulates hepatic lipid metabolism in vivo. The present studies demonstrate that CLA is a high affinity ligand and activator of peroxisome proliferator-activated receptor alpha (PPARalpha) and induces accumulation of PPAR-responsive mRNAs in a rat hepatoma cell line. Using a scintillation proximity assay (SPA), CLA isomers were shown to be ligands for human PPARalpha with a rank order of potency of (9Z,11E)>(10E,12Z)>(9E,11E)> furan-CLA (IC(50) values from 140 nm to 400 nm). Levels of acyl-CoA oxidase (ACO), liver fatty acid-binding protein (L-FABP), and cytochrome P450IVA1 (CYP4A1) mRNA were induced by CLA in FaO hepatoma cells. Even though linoleate and CLA were incorporated into lipids of hepatoma cells to the same extent, linoleate had little or no effect on ACO, CYP4A1, or L-FABP mRNA. In agreement with its binding potency, (9Z,11E)-CLA was the most efficacious PPARalpha activator in the mouse PPARalpha-GAL4(UAS)(5)-CAT reporter system. These data indicate that CLA is a ligand and activator of PPARalpha and its effects on lipid metabolism may be attributed to transcriptional events associated with this nuclear receptor. Also, (9Z,11E)-CLA is one of the most avid fatty acids yet described as a PPARalpha ligand.
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PMID:Conjugated linoleic acid is a potent naturally occurring ligand and activator of PPARalpha. 1042 78

Arachidonic (AA) and docosahexaenoic (DHA) acids (5-20 microM), when supplemented to human hepatoma HepG2 cells, which are depleted in these long-chain polyunsaturated fatty acids in conventional culture conditions, enhance the expression of acyl-CoA oxidase (ACOX), the first enzyme in the peroxisomal beta-oxidation cycle. DHA is effective at lower concentrations (at 5 microM) and to a greater extent (about 60% increment) than AA (about 40%) at 20 microM. Protein kinase C (PKC) appears to be involved in the activity of AA on ACOX, but not in that of DHA, since only the effect of AA is prevented by the PKC inhibitor Staurosporine, and since a remarkable elevation of the PKC activator diacylglycerol occurs only after AA supplementation. AA also induces elevation of lipoperoxides, favoured by the relative vitamin E deficiency occurring in cultured cells, and this effect, which is prevented by supplementation of the vitamin, may contribute to PKC activation.
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PMID:Arachidonic and docosahexaenoic acids differentially affect the expression of fatty acyl-CoA oxidase, protein kinase C and lipid peroxidation in HepG2 cells. 1047 Nov 23


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