Transcription coactivator TRAP220 is required for PPARγ2-stimulated adipogenesis

Abstract

The TRAP (thyroid hormone receptor-associated proteins) transcription coactivator complex (also known as Mediator) was first isolated as a group of proteins that facilitate the function of the thyroid hormone receptor¹. This complex interacts physically with several nuclear receptors through the TRAP220 subunit, and with diverse activators through other subunits². TRAP220 has been reported to show ligand-enhanced interaction with peroxisome proliferator-activated receptor γ2 (PPARγ2)^3,4, a nuclear receptor essential for adipogenesis^5,6,7,8. Here we show that Trap220^-/- fibroblasts are refractory to PPARγ2-stimulated adipogenesis, but not to MyoD-stimulated myogenesis, and do not express adipogenesis markers or PPARγ2 target genes. These defects can be restored by expression of exogenous TRAP220. Further indicative of a direct role for TRAP220 in PPARγ2 function via the TRAP complex, TRAP functions directly as a transcriptional coactivator for PPARγ2 in a purified in vitro system and interacts with PPARγ2 in a ligand- and TRAP220-dependent manner. These data indicate that TRAP220 acts, via the TRAP complex, as a PPARγ2-selective coactivator and, accordingly, that it is specific for one fibroblast differentiation pathway (adipogenesis) relative to another (myogenesis).