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  • Title: Differential regulation of the cynomolgus, human, and rat acyl-CoA oxidase promoters by PPARalpha.
    Author: Kane CD, Francone OL, Stevens KA.
    Journal: Gene; 2006 Oct 01; 380(2):84-94. PubMed ID: 16828988.
    Abstract:
    Peroxisome proliferator-activated receptor alpha (PPARalpha) is a member of the nuclear receptor family of transcription factors and is recognized as the molecular target of the hypolipidemic fibrate drugs. Fibrates promote lipid catabolism by inducing genes involved in fatty acid beta-oxidation. In rodents this is accompanied by peroxisome proliferation, and after chronic dosing hepatocarcinoma, whereas epidemiological studies suggest these adverse events are lacking in humans. Rodents such as rats and mice appear particularly sensitive to PPARalpha-induced peroxisome proliferation while humans are resistant. These findings question the utility of rodent models for safety monitoring of experimental PPARalpha agonists and highlight the need for additional preclinical models that display greater physiological relevance for human response. Thus we have focused on elucidating the molecular mechanism of species-dependent peroxisome proliferation by understanding the PPARalpha-dependent regulation of the acyl-CoA oxidase (AOX) promoter, the rate-limiting step of peroxisomal beta-oxidation. We have chosen the cynomolgus monkey as a model that is modestly responsive to peroxisome proliferation and functionally characterized it against the highly responsive rat and non-responsive human species. We report the identification of a putative peroxisome proliferator response element (PPRE) within the 2.3 kb proximal promoter of the cynomolgus monkey AOX gene. Characterization of these promoters using a series of constitutively active, PPARalpha constructs demonstrate that the PPREs within the proximal cynomolgus and human AOX promoters are non-responsive to PPARalpha whereas the rat PPRE is highly responsive. These findings were verified in vivo using a small molecule PPARalpha agonist. Taken together, we demonstrate concordant regulation of the AOX promoter by PPARalpha in cynomolgus monkeys and humans and suggest that this model is superior to rodent models with respect to preclinical evaluation of PPARalpha agonists.
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