A Unique Role of the β-2 Thyroid Hormone Receptor Isoform in Negative Regulation by Thyroid Hormone

Abstract

Negative regulation by thyroid hormone is mediated by nuclear thyroid hormone receptors (TRs) acting on thyroid hormone response elements (TREs). We examine here the role of human TR-beta2, a TR isoform with central nervous system-restricted expression, in the regulation of target genes whose expression are decreased by triiodothyronine (T3). Using transient transfection studies, we found that TR-beta2 achieved significantly greater ligand-independent activation on the thyrotropin-releasing hormone (TRH) and common glycoprotein alpha-subunit genes than either TR-beta1 or TR-alpha1. A chimeric TR-beta isoform containing the TR-beta2 amino terminus linked to the TR-alpha1 DNA- and ligand-binding domains functioned like the TR-beta2 isoform on these promoters, confirming that the amino terminus of TR-beta2 was both necessary and sufficient to mediate this effect. By constructing deletion mutants of the TR-beta2 amino terminus, we demonstrate that amino acids 89-116 mediate this function. This domain, important in ligand-independent activation on negative TREs, is discrete from a previously described activation domain in the amino-terminal portion of TR-beta2. We conclude that the central nervous system-restricted TR-beta2 isoform has a unique effect on negative regulation by T3 that can be mapped to amino acids 89-116 of the amino terminus of the human TR-beta2.