Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0019209 (hepatomegaly)
 5,798 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of two cholesterol-lowering (probucol and 1-benzyl-imidazole), three triglyceride- and cholesterol-lowering (clofibrate, tiadenol and fenofibrate) and one triglyceride-lowering (acetylsalicylic acid) compounds on the specific activities of two lipid-metabolizing enzymes (cyanide-insensitive peroxisomal beta-oxidation and palmitoyl-CoA hydrolase) and two xenobiotic metabolizing enzymes (cytosolic (cEH) and microsomal epoxide hydrolase (mEHb] from the livers of male Fischer F-344 rats were investigated. With the exception of probucol and acetylsalicylic acid, all compounds tested caused a dose-dependent hepatomegaly. Taken on a weight basis fenofibrate was the most effective inducer, causing a 20-fold induction of peroxisomal beta-oxidation, a 13-fold induction of cEH activity and a 16-fold induction of palmitoyl-CoA hydrolase activity. The other compounds with triglyceride-lowering activity also induced cEH as well as peroxisomal beta-oxidation and palmitoyl-CoA hydrolase activity. The potency of each individual drug was similar for induction of cEH activity as compared with that of peroxisomal beta-oxidation and palmitoyl-CoA hydrolase activity, but very dissimilar for mEHb, which upon treatment with any of the triglyceride-lowering compounds was either not or only minimally (less than 1.5-fold) induced. 1-Benzylimidazole possessing exclusively cholesterol-lowering activity increased mEHb much more than either cEH or peroxisomal beta-oxidation. The absence of an enhancement of cEH activity in in vitro studies confirmed that the increase in enzyme activity by the test compounds is not caused by activation. cEH activity was also induced in the kidney but only about 2-fold by fenofibrate, tiadenol and acetylsalicylic acid.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Concomitant induction of cytosolic but not microsomal epoxide hydrolase with peroxisomal beta-oxidation by various hypolipidemic compounds. 288 May 93

The short-term effects of citral on the liver have been studied in two strains of rat. Hepatomegaly was accompanied in citral-treated rats by an altered distribution of lipid and glycogen in the liver and peroxisome proliferation occurred in a manner reminiscent of that associated with some hypolipidaemic compounds. Specific biochemical markers supported the morphological changes in the peroxisomes. Cyanide-insensitive palmitoyl CoA oxidation showed, at the maximum, fourfold and threefold inductions in Wistar albino and Long Evans hooded rats, respectively. In addition, induction of cytochrome P-450 levels was greater in the Long Evans than in the Wistar rats, the maximal increases recorded being 81 and 27% respectively. A peroxisome-associated polypeptide of molecular weight 80,000 daltons (PPA-80) was induced, especially in Long Evans rats. No alterations in plasma triglycerides or total cholesterol were detected. The differential induction of the mixed-function oxidase system and the differential proliferation of peroxisomes in these two strains of rat suggest that citral may be metabolized differently in the two strains. The study indicates that peroxisomal and possibly also mitochondrial changes are involved in the action of citral on lipid metabolism.
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PMID:Comparison of the short-term hepatic effects of orally administered citral in Long Evans hooded and Wistar albino rats. 362 39

The antilipolytic drug acipimox (5-methylpyrazine-2-carboxylic acid 4-oxide) was given to male rats for 1 week at 500, 1000 and 2000 mg/kg/day and for 2, 6 and 7 months at 20, 100 and 500 mg/kg/day. The peroxisome proliferative effect was evaluated determining the activity of catalase and carnitine acetyltransferase, the rate of cyanide-insensitive palmitoyl CoA oxidation and the electrophoretic profile of liver polypeptides. Hepatic lipid content and distribution were evaluated after 2 and 6 months' treatment. The effect on liver detoxificating function was evaluated by assaying glutathione, cytochrome P-450, glutathione-S-transferase and glutathione-reductase activities after 7 months' treatment. Sub-acute and chronic treatment with a wide range of acipimox doses did not cause hepatomegaly, liver peroxisome proliferation or liver steatosis and did not change some important biochemical variables related to detoxification and biotransformation mechanisms. Acipimox given to rats does not have the negative side-effects of other compounds and seems a safe blood lipid lowering drug.
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PMID:Effect of the antilipolytic compound acipimox on peroxisome marker enzymes, lipid pattern and biotransformation related functions in rat liver. 407 Mar 42

Young male Sprague-Dawley rats and Syrian hamsters were treated with 25-1000 mg/kg/day di-(2-ethylhexyl) phthalate (DEHP) orally for 14 days. Liver enlargement was observed in both species, the magnitude being greater in the rat than in the hamster. In the rat there was a marked dose-dependent induction of the peroxisomal marker cyanide-insensitive palmitoyl-CoA oxidation and also of carnitine acetyltransferase. Little effect was observed on the mitochondrial markers carnitine palmitoyltransferase and succinate dehydrogenase. Whereas in the rat, increased peroxisomal enzyme activities were observed after treatment with 100 and 250 mg/kg/day DEHP, much less effect was observed in the hamster even after 1000 mg/kg/day DEHP. Parallel morphological investigations demonstrated a greater increase in hepatic peroxisome numbers in the rat than in the hamster. 14C-labeled DEHP was found to be more rapidly hydrolyzed by rat than hamster hepatic and small intestinal mucosal cell preparations and differences were also observed in the absorption and excretion of oral doses of [14C]DEHP. Studies with mono-(2-ethylhexyl) phthalate (MEHP), a primary metabolite of DEHP, and a hypolipidemic drug clofibrate also resulted in a greater increase in hepatic peroxisomal enzymes in the rat compared to the hamster. The results demonstrate that while DEHP, MEHP, and clofibrate induced hepatic peroxisome proliferation in both species, there was a marked species difference in response. Comparative long-term studies in these species may thus help to clarify the role of peroxisome proliferation in the hepatocarcinogenicity of DEHP.
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PMID:Comparative studies on di-(2-ethylhexyl) phthalate-induced hepatic peroxisome proliferation in the rat and hamster. 671 Apr 84

To ascertain if there is stereoselectivity in peroxisomal proliferation induced by chiral peroxisome proliferators, induction by stereoisomers of 2-methyl-4'-chlorophenoxyacetic acid and 2-methyl-2-(2'-4'-dichlorophenoxy)acetic acid were studied in rat in vivo and in vitro with isolated rat hepatocytes. No significant differences in the inducing potencies of the stereoisomers of the above two phenoxyacetic acid derivatives were found for cyanide-insensitive fatty acyl-CoA oxidizing system, fatty acyl-CoA oxidase, carnitine acetyltransferase or carnitine palmitoyltransferase. There was also no significant difference in the degree of hepatomegaly or lipid-lowering effect between the isomers. The findings with cultured rat hepatocytes agreed with those of the studies in vivo.
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PMID:Lack of stereoselectivity in rat liver peroxisomal enzyme induction by optically active phenoxyacetic acids. 836 50

This report presents new data on mammalian peroxisomes by studying an unusual rodent: the jerboa (Jaculus orientalis). This animal exhibits some unique peroxisomal properties compared to the rat, such as higher cyanide-insensitive palmitoyl-CoA oxidase specific activity, pattern differences in SDS-PAGE peroxisomal proteins as well as in acyl-CoA oxidase immunoblotting. There is also a peculiar response to a peroxisome proliferator, ciprofibrate. With 250 ppm of ciprofibrate in the diet for 2 weeks, we observed a limited liver peroxisome proliferation as well as a palmitoyl-CoA oxidase activity, enzyme content and mRNA increase. However, there was no increase in catalase activity, nor hepatomegaly which are prominent features of peroxisome proliferation in rats treated under the same conditions. The palmitoyl-CoA oxidase activity increase was weak in the kidney and not observed in the heart. Other subcellular organelle marker enzyme activities did not significantly change, especially the mitochondrial D-3-hydroxybutyrate and succinate dehydrogenases, lysosomal acid phosphatase, cytosolic lactate dehydrogenase and the endoplasmic reticulum NADPH-cytochrome c reductase. However, the activity of the liver membrane endoplasmic reticulum linked omega-lauryl hydroxylase (cytochrome P450 IV A1) increases after ciprofibrate treatment. Jerboa also behaves differently compared to the guinea pig after ciprofibrate treatment since the guinea pig has a weak response towards peroxisome proliferators. In conclusion, this first peroxisome study utilizing a different type of rodent as a laboratory animal, reveals that the jerboa shows unique peroxisome properties and responds in a moderate manner to a peroxisome proliferator, ciprofibrate, without leading to any increase in liver mass. This supports the fact that fibrate molecules may have different targets depending upon the species.
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PMID:Properties of peroxisomes from jerboa (Jaculus orientalis). 879 87

Four male and three female marmosets in each group were exposed to air only, 1000 ppm of HCFC 225ca or 5000 ppm of HCFC 225cb, for 6 h per day for 28 consecutive days. HCFC 225ca caused a slight reduction in body weight. HCFC 225cb occasionally caused somnolence during exposure and vomiting on the first day of exposure. Clinical chemistry findings included a mild reduction of triglyceride, cholesterol and phospholipid levels and increased GOT level in the HCFC 225ca exposure group. HCFC 225cb also caused a reduction of triglyceride levels in some animals. HCFC 225ca caused a slight increase of hepatic carnitine palmitoyltransferase (CPT) activity while HCFC 225cb slightly increased cyanide-insensitive palmitoyl CoA beta-oxidation (FAOS) activity. In the HCFC 225cb exposure group, an increase in cytochrome P-450 content was also observed. HCFC 225ca caused a fatty change in the hepatic cells. Increased incidence of lipid droplets in the hepatic cells and myelin-like bodies in hepatic cells, Kupffer's cells and hepatic blood vessels were observed electron microscopically in the HCFC 225ca exposure group. A proliferation of smooth endoplasmic reticulum was observed in the HCFC 225cb exposure group. Decreased peroxisome volume density in the HCFC 225ca group, and increased volume density in the HCFC 225cb exposed females were seen. However, organ weight measurement and histopathological examination did not reveal hepatomegaly or hypertrophy with either substance. Although slight changes were noticed in peroxisome volume density and in some of the peroxisomal enzyme activities, the changes related to peroxisome proliferation with HCFC 225ca and 225cb were minimal in marmosets compared to those seen in rats. Histopathological examination and hormonal analysis did not reveal any abnormalities in the pancreas or testes.
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PMID:Four-week repeated inhalation study of HCFC 225ca and HCFC 225cb in the common marmoset. 933 32

Carnitine palmitoyl transferase I (CPTI), which converts acyl-CoA and carnitine into acyl-carnitine and free CoASH, is the rate limiting enzyme of hepatic mitochondrial beta-oxidation. CPTI-deficiency is a severe disorder characterized by Reye-like attacks with hypoketotic hypoglycemia, hepatomegaly, elevated liver enzymes and hyperammonemia. We developed a simple tandem-MS-based assay to measure CPTI activity in human fibroblasts. Surprisingly, a large part of the palmitoyl-carnitine formed in our assay by CPTI was degraded into C14- to C2-acyl-carnitines. Degradation of the product of CPTI leads to under estimation of the CPTI activity. When we used potassium cyanide to inhibit enzymes downstream of CPTI and thereby degradation of the product, we measured four times more CPTI activity than the previous methods. This inhibition is essential for correct calculation of CPTI activity. In fibroblasts of CPTI-deficient patients, CPTI activity was not detectable and this assay can be used for the diagnosis of CPTI-deficiency.
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PMID:An improved enzyme assay for carnitine palmitoyl transferase I in fibroblasts using tandem mass spectrometry. 1693 15