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Eur J Biochem. 1996 Jan 15;235(1-2):242-7.

Activation of gene transcription by prostacyclin analogues is mediated by the peroxisome-proliferators-activated receptor (PPAR).

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1
Department of Human Nutrition and Metabolism, Hebrew University, Jerusalem, Israel.

Abstract

Xenobiotic amphipathic carboxylates, known collectively as hypolipidemic peroxisome proliferators (e.g., aryloxyalkanoic acids), or native long-chain fatty acids induce liver peroxisome proliferation and other biological activities. This broad spectrum of effects results from modulation of transcription of specific genes mediated by binding of peroxisome-proliferators-activated receptors (PPAR) to respective sequence-specific promoter elements (PPRE). The broad specificity and relatively low potency of reported hypolipidemic peroxisome proliferators prompted us to search for specific highly potent peroxisome proliferators. Here we report that stable prostacyclin analogues may act in such a manner. mPPAR alpha-mediated expression of a reporter gene linked to the peroxisomal rat acyl-CoA oxidase promoter was dose-dependently induced by carbaprostacyclin and iloprost. The ED50 for carbaprostacyclin was 25 nM, and carbaprostacyclin was therefore 25-fold and 200-fold more effective than the most potent xenobiotic (5,18,11,14-eicosatetraynoic acid) and native (arachidonic acid) inducers, respectively. Induction was further increased by cotransfecting the cells with mPPAR alpha and an expression vector for retinoic acid-X-receptor. PPAR-mediated activation of gene expression by prostacyclin analogues was specific for PPAR and was not observed using other members of the superfamily. No activation of gene expression was induced by other prostaglandins or leukotrienes at concentrations 100-fold higher than those of the prostacyclin analogues. Induction of gene expression by prostacyclin analogues was inhibited in cells transfected with the long-chain-acyl-CoA synthase, indicating that the acidic form of prostacyclin, rather than the respective CoA derivative or a metabolite derived thereof, serves as the activator of the PPAR/PPRE transduction pathway. Hence, PPAR-mediated modulation of gene transcription by prostacyclins may form the basis for their novel role as regulators of gene expression. Xenobiotic hypolipidemic peroxisome proliferators and native long-chain fatty acids seem to exploit the PPAR/PPRE transduction pathway used by prostacyclin.

PMID:
8631336
[Indexed for MEDLINE]
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