Abstract
PGC-1alpha is an inducible nuclear receptor coactivator with direct functions in both p300-mediated chromatin remodeling and Mediator-dependent transcription in vitro. Here, we have employed the PPARgamma- and TRalpha-activated brown adipose tissue-specific UCP-1 enhancer to investigate mechanistic aspects of PGC-1alpha function. We first demonstrate a cellular role for the PGC-1alpha-interacting MED1 subunit of Mediator in UCP-1 induction, as well as the accumulation of TRalpha, PPARgamma, PGC-1alpha, and MED1 on the UCP-1 enhancer in brown adipocytes. We then use biochemical assays to show that (i) PGC-1alpha is recruited to the TRalpha-RXRalpha-UCP-1 enhancer complex through interaction of an N-terminal LXXLL domain with TRalpha, (ii) MED1/Mediator displaces PGC-1alpha from TRalpha through LXXLL domain competition, and (iii) upon loss of PGC-1alpha-TRalpha interactions, PGC-1alpha remains associated with the enhancer complex through an interaction between PGC-1alpha and MED1 C-terminal domains. These results indicate dynamic MED1-dependent PGC-1alpha interactions related to functions in both chromatin remodeling and the transition to subsequent transcription initiation.