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  • Title: Peroxisome proliferators and peroxisome proliferator activated receptors (PPARs) as regulators of lipid metabolism.
    Author: Latruffe N, Vamecq J.
    Journal: Biochimie; 1997; 79(2-3):81-94. PubMed ID: 9209701.
    Abstract:
    Peroxisome proliferation (PP) in mammalian cells, first described 30 years ago, represents a fascinating field of modern research. Major improvements made in its understanding were obtained through basic advances that have opened up new areas in cell biology, biochemistry and genetics. A decade after the first report on PP, a new metabolic pathway (peroxisomal beta-oxidation) and its inducibility by peroxisome proliferators were discovered. More recently, a new type of nuclear receptor, the peroxisome proliferator-activated receptor (PPAR), has been described. The first PPAR was discovered in 1990. Since then, many other PPARs have been characterized. This original class of nuclear receptors belongs to the superfamily of steroid receptors. With activation of cell signal transduction pathways, the occurrence of PPARs provides, for the first time, a coherent explanation of mechanisms by which PP is triggered. Nevertheless, although many compounds or metabolites are capable of activating PPARs, the natural direct ligands of these receptors have not been, up to now, clearly identified, with, however, the exception of 15-deoxy-12,14-prostaglandin J2 which is the ligand of PPAR gamma 2 while leukotrien LTB4 binds PPAR alpha. At this stage, the hypothesis of some orphan PPARs (ie receptors without known ligand) can not be ruled out. Despite these relatively restrictive aspects, the mechanisms by which activation of PPARs leads to PP become clear; also, coherent hypotheses among which a scenario involving receptor phosphorylation or a heat shock protein (ie HSP 72) can be proposed to explain how PPARs would be activated. The aim of this note is to review recent developments on PPARs, to present members up to now recognized to belong to the PPAR family, their characterization, functions, regulation and mechanisms of activation as well as their involvement in lipid metabolism regulation such as control of beta-oxidation, ketogenesis, fatty acid synthesis and lipoprotein metabolism. As an introducing section, a brief review of the major events between the first report of PP in mammals and the discovery of the first PPAR is given. Another section is devoted to current hypotheses on mechanisms responsible for PPAR activation and PP induction. Rather than an exhaustive presentation of cellular alterations accompanying PP induction, a dynamic overview of the lipid metabolism is provided. By assessing the biological significance of this organellar proliferative process, the reader will be led to conclude that the discovery of PPARs and related gene activation through peroxisome proliferator responsive element (PPRE) makes PP induction one of the most illustrative examples of control that occurs in lipid metabolism.
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