Abstract

Background: The peroxisome proliferator-activated receptors (PPAR) are ligand-activated transcription factors belonging to the nuclear receptor family. The roles of PPARα in fatty acid oxidation and PPARγ in adipocyte differentiation and lipid storage have been characterized extensively. PPARs are activated by fatty acids and eicosanoids and are also targets for antidyslipidemic drugs, but the molecular interactions governing ligand selectivity for specific subtypes are unclear due to the lack of a PPARα ligand binding domain structure. Results: We have solved the crystal structure of the PPARα ligand binding domain (LBD) in complex with the combined PPARα and -γ agonist AZ 242, a novel dihydro cinnamate derivative that is structurally different from thiazolidinediones. In addition, we present the crystal structure of the PPARγ_LBD/AZ 242 complex and provide a rationale for ligand selectivity toward the PPARα and -γ subtypes. Heteronuclear NMR data on PPARα in both the apo form and in complex with AZ 242 shows an overall stabilization of the LBD upon agonist binding. A comparison of the novel PPARα/AZ 242 complex with the PPARγ/AZ 242 complex and previously solved PPARγ structures reveals a conserved hydrogen bonding network between agonists and the AF2 helix. Conclusions: The complex of PPARα and PPARγ with the dual specificity agonist AZ 242 highlights the conserved interactions required for receptor activation. Together with the NMR data, this suggests a general model for ligand activation in the PPAR family. A comparison of the ligand binding sites reveals a molecular explanation for subtype selectivity and provides a basis for rational drug design.

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