The TRAP/Mediator Coactivator Complex Interacts Directly with Estrogen Receptors α and β through the TRAP220 Subunit and Directly Enhances Estrogen Receptor Function in vitro

Target gene activation by nuclear hormone receptors, including estrogen receptors (ERs), is thought to be mediated by a variety of interacting cofactors. Here we identify a number of nuclear extract-derived proteins that interact with immobilized ER ligand binding domains in a 17β-estradiol-dependent manner. The most prominent of these are components of the thyroid hormone receptor-associated protein (TRAP)/Mediator coactivator complex, which interacts with ERα and ERβ in both unfractionated nuclear extracts and purified form. Studies with extracts from TRAP220-/-fibroblasts reveal that these interactions depend on TRAP220, a TRAP/Mediator subunit previously shown to interact with ER and other nuclear receptors in a ligand-dependent manner. The physiological relevance of the in vitro interaction is documented further by the isolation of an ERα-TRAP/Mediator complex from cultured cells expressing an epitope-tagged ERα. Finally, the complete TRAP/Mediator complex is shown to enhance ER function directly in a highly purified cell-free transcription system. These studies firmly establish a direct role for TRAP/Mediator, through TRAP220, in ER function.