F. Waechter

Potentiation of diacylglycerol-activated protein kinase C by acyl-coenzyme A thioesters of hypolipidaemic drugs.

Acyl-Coenzyme A thioesters of the hypolipidaemic and cancerinogenic peroxisome proliferators clofibric acid, nafenopin, ciprofibrate, bezafibrate and tibric acid were found to greatly increase the activity of rat brain protein kinase C. Maximal activation required the simultaneous presence of Ca+2, phosphatidylserine and diolein, thus differentiating their action from that of other tumor promoters such as phorbol esters. Under similar conditions the unesterified drugs were comparatively ineffective. Similar results were obtained using the rat liver enzyme. The data suggest that acylcoenzyme A thioesters of hypolipidaemic drugs, may play a role in the induction of liver tumors by these compounds, through the potentiation of protein kinase C.

Functional supersensitivity to adrenergic agonists in the rat after DSP-4, a selective noradrenergic neurotoxin

Rats treated with DSP-4 [N-(2-chloroethyl)-N-ethyl-2-bromobenzylamine], a selective noradrenergic neurotoxin, showed no differences compared to control rats in the number of head dips, a measure of exploratory behavior. Since a previous neurochemical investigation had demonstrated that DSP-4 rats have supersensitive α2 and β-adrenergic receptors in certain regions of the central nervous system, the behavior of these animals was also examined after the injection of clonidine, an α2 agonist, and clenbuterol, a β agonist. These drugs reduced, in a dose-dependent manner, the head-dipping of both control and DSP-4 rats. However, this effect was of greater magnitude in DSP-4 animals. Control experiments suggested that the response to clonidine and clenbuterol was mediated centrally by α2 and β receptors, respectively. Other behavioral experiments with agonists of the dopaminergic and serotoninergic systems indicated that these neurotransmitter systems were unchanged in DSP-4 animals. The results are discussed in terms of the selective action of DSP-4 and the responsiveness of DSP-4 rats to adrenergic agonists. The DSP-4-treated rat may constitute a new model of functional supersensitivity to adrenergic agonists.

Long-term maintenance of hepatocytes in primary culture in the presence of DMSO: Further characterization and effect of nafenopin, a peroxisome proliferator

The addition of 2% dimethyl sulfoxide to adult rat hepatocytes cultured in a chemically defined medium at Day 1 after cell plating resulted in maintenance of the cytochrome P-450 content and the cyanide-insensitive palmitoyl-CoA beta-oxidation activity at 66 and 70% of the initial Day 1 values. The addition of phenobarbital, 3-methylcholanthrene, or nafenopin from Day 3 to Day 6 increased the contents of cytochrome P-450 to 128, 239, and 251%, respectively, compared to untreated controls at Day 3. In addition, nafenopin also caused a pronounced and time-dependent increase in palmitoyl-CoA beta-oxidation activity but was found to have only a weak stimulating effect on replicative DNA synthesis (2-fold) when compared to that of epidermal growth factor (6.5-fold). In the presence of dimethyl sulfoxide the hepatocyte cultures could be kept alive for more than 1 month. Exposure of such cultures to nafenopin from Day 1 do Day 37 resulted in survival which was even better than that of their untreated counterparts. This effect was accompanied by the appearance of abundant endoplasmic reticulum membranes and an increased number of peroxisomes.

Epoxide hydrolase activity in isolated peroxisomes of mouse liver

Using trans‐stilbene oxide as substrate, the subcellular distribution of epoxide hydrolase was investigated in livers from DBA/2 mice. The highest specific activities were found in cytosolic and light mitochondrial fractions. Isopycnic subfractionation of the light mitochondrial fraction showed that the organelle‐bound trans‐stilbene oxide hydrolase is localized in peroxisomes.

Induction of cytosolic and microsomal epoxide hydrolases by the hypolipidaemic compound nafenopin in the mouse liver

The repeated oral administration of nafenopin, a hypolipidaemic compound, at a dose of 100 mg/kg to male C57BL/6, DBA/2, Balb c and C3H mice caused an increase in the specific activity of liver cytosolic epoxide hydrolase, the activity of microsomal epoxide hydrolase was also increased in all except the C3H mice. The dose dependence and the specificity of this induction was investigated in male DBA/2 mice. In the range of 10-200 mg/kg nafenopin the induction of the two hydrolase activities was found to increase with increasing doses of the test compound. Two other cytosolic enzyme activities, lactate dehydrogenase and glutathione S-transferase, remained essentially unchanged within the dose range investigated.

Immunochemical localization of epoxide hydratase in rat liver: effects of 2-acetylaminofluorene.

Abstract The distribution of epoxide hydratase was studied immunohistologically in paraffin sections of p-benzoquinone-fixed livers obtained from normal and 2-acetylaminofluorene-treated rats. In controls the enzyme was localized preferentially in the centrilobular hepatocytes. After the administration of 2-acetyl-aminofluorene, the staining was evenly distributed within the lobules suggesting the possibility that this hepatocarcinogen preferentially induced epoxide hydratase in perilobular parenchymal cells. Nonhepatocytic cells were considerably less extensively stained than hepatocytes.

Stimulation of DNA synthesis but not of peroxisomal β-oxidation by nafenopin in primary cultures of marmoset hepatocytes

The effects of the peroxisome proliferator nafenopin upon primary cultures of marmoset hepatocytes have been investigated and compared to those on cultured rat hepatocytes. Nafenopin did not induce peroxisomal beta-oxidation or peroxisome proliferation but did induce replicative DNA synthesis. These findings demonstrate that peroxisome proliferation and mitogenicity are two independent properties of nafenopin and question the widely held view that primates are generally insensitive to the effects of peroxisome proliferators.

Organ distribution of epoxide hydrolases in cytosolic and microsomal fractions of normal and nafenopin-treated male DBA/2 mice

Using trans-stilbene oxide and styrene oxide as substrates, epoxide hydrolase activities were measured in cytosolic and microsomal fractions from liver, kidney, heart, lung and testis of male DBA/2 mice. The activities towards these two substrates are remarkably organ specific: trans-stilbene oxide was most effectively hydrolyzed in subcellular fractions from liver, kidney and heart, whereas styrene oxide was predominantly hydrolyzed in those from liver, lung and testis. Immunoblotting experiments were performed with two polyclonal antibodies isolated from goat antisera. Using an anti-mouse liver cytosolic epoxide hydrolase antibody, the corresponding antigen protein was predominantly detected in both cytosolic and microsomal fractions from liver, kidney and heart. An anti-rat liver microsomal epoxide hydrolase antibody proved to be cross-reactive with the mouse enzyme and stained SDS-gels run with microsomal fractions from liver, lung and testis. The anti-mouse liver cytosolic epoxide hydrolase antibody precipitated cytosolic epoxide hydrolase activities from liver, kidney and heart cytosolic fractions. Dietary exposure to the hypolipidemic agent nafenopin (2000 ppm/10 days) caused an induction of trans-stilbene oxide hydrolase and styrene oxide hydrolase activities in cytosolic and microsomal liver fractions whereas, in the other organs, the same activities were unaffected by this treatment. This finding was in accordance with the increased amounts of antigen protein as detected with the antibodies in liver fractions from treated animals. The anti-mouse liver cytosolic epoxide hydrolase antibody was found to precipitate the whole trans-stilbene oxide hydrolase activity also from liver cytosol of nafenopin-treated mice, which indicates the presence of a single cytosolic epoxide hydrolase following induction.

Toxicology of industrial compounds

Chemical structure physical properties pharmacology and mechanism of action pharmacokinetics clinical trials pregnancy and lactation side effects contraindications and precautions dosage drug interactions preparations and references.

The use of primary cultures of adult rat hepatocytes to study induction of enzymes and DNA synthesis: Effect of nafenopin and electroporation

Primary cultures of adult rat hepatocytes maintained in a well-differentiated state, in a chemically defined medium containing 2% DMSO, have been utilized to study the effect of non-mutagenic hepatocarcinogens such as the peroxisome proliferator nafenopin. The parameters chosen in this in vitro system were those that paralleled the major in vivo effects of nafenopin on the liver, mainly: the proliferation of the endoplasmic reticulum and induction of cytochrome P-452, the proliferation of the peroxisome compartment and the induction of cyanide-insensitive β-oxidation of fatty acids and the stimulation of liver growth as measured by the DNA synthetic activity of the hepatocytes. In this review, we also describe the morphology of hepatocyte cultures prepared from previously electroporated hepatocytes and the potential for the use of electroporation to introduce growth related genes into hepatocyte cells to study the mechanisms of hepatocyte growth at the molecular level. In addition we describe the formation of endoplasmic reticulum whorls in these cultures as a consequence of nafenopin treatment. ‘Whorl formation’ by hepatotrophic chemicals has been previously shown to occur in vivo; in this report, it is described for the first time in vitro.