Lack of coactivator interaction can be a mechanism for dominant negative activity by mutant thyroid hormone receptors

We studied the interactions of two natural thyroid hormone receptor (TR) mutants from patients with resistance to thyroid hormone (RTH) and an artificial TR mutant with a nuclear receptor corepressor, N-CoR, and a steroid receptor coactivator, SRC-1. In electrophoretic mobility shift assays, wild-type TRbeta-1 interacted with N-CoR in the absence of ligand, whereas T3 caused dissociation of the TRbeta-1/N-CoR complex and formation of TRbeta-1/SRC-1 complex. In contrast, a natural mutant (G345R) with poor T3-binding affinity formed TRbeta-1/N-CoR complex, both in the absence and presence of T3, but could not form TRbeta-1/SRC-1 complex. Another TR mutant, which bound T3 with normal affinity and containing a mutation in the AF-2 region (E457D), had normal interactions with N-CoR but could not bind SRC-1. Both these mutants had strong dominant negative activity on wild-type TR transactivation. Studies with a TR mutant that had slightly decreased T3-binding affinity (R320H) showed a T3-dependent decrease in binding to N-CoR and increase in binding to SRC-1 that reflected its decreased ligand binding affinity. Additionally, when N-CoR and SRC-1 were added to these receptors at various T3 concentrations in electrophoretic mobility shift assays, TR/N-CoR and TR/SRC-1 complexes, but not intermediate complexes were observed, suggesting that N-CoR release is necessary before SRC-1 binding to TR. Our data provide new insight on the molecular mechanisms of dominant negative activity in RTH and suggest that the inability of mutant TRs to interact with coactivators such as SRC-1, which results from reduced T3-binding affinity, is a determinant of dominant negative activity.     

Two separate NCoR (nuclear receptor corepressor) interaction domains mediate corepressor action on thyroid hormone response elements

The nuclear corepressor (NCoR) binds to the thyroid hormone receptor (TR) in the absence of ligand. NCoR-TR interactions are mediated by two interaction domains in the C-terminal portion of NCoR. Binding of NCoR to TR results in ligand-independent repression on positive thyroid hormone response elements. The interactions between NCoR interaction domains and TR on DNA response elements, however, have not been well characterized. We have found that both interaction domains are capable of binding TR on thyroid hormone response elements. In addition, the NCoR interaction domains interact much more strongly with the TR than those present in the silencing mediator of retinoic acid and TRs (SMRT). Furthermore, deletion of either NCoR interaction domain does not significantly impair ligand-independent effects on positive or negative thyroid hormone response elements. Finally, both NCoR interaction domains appear to preferentially bind TR homodimer over TR-retinoid X receptor heterodimer in electrophoretic mobility shift assays. These data suggest that either NCoR interaction domain is capable of mediating the ligand-independent effects of TR on positive and negative thyroid hormone response elements.