Thyroid hormone-independent interaction between the thyroid hormone receptor beta2 amino terminus and coactivators.

Thyroid hormone receptors (TRs) mediate hormone action by binding to DNA response elements (TREs) and either activating or repressing gene expression in the presence of ligand, T(3). Coactivator recruitment to the AF-2 region of TR in the presence of T(3) is central to this process. The different TR isoforms, TR-beta1, TR-beta2, and TR-alpha1, share strong homology in their DNA- and ligand-binding domains but differ in their amino-terminal domains. Because TR-beta2 exhibits greater T(3)-independent activation on TREs than other TR isoforms, we wanted to determine whether coactivators bound to TR-beta2 in the absence of ligand. Our results show that TR-beta2, unlike TR-beta1 or TR-alpha1, is able to bind certain coactivators (CBP, SRC-1, and pCIP) in the absence of T(3) through a domain which maps to the amino-terminal half of its A/B domain. This interaction is specific for certain coactivators, as TR-beta2 does not interact with other co-factors (p120 or the CBP-associated factor (pCAF)) in the absence of T(3). The minimal TR-beta2 domain for coactivator binding is aa 21-50, although aa 1-50 are required for the full functional response. Thus, isoform-specific regulation by TRs may involve T(3)-independent coactivator recruitment to the transcription complex via the AF-1 domain.