Dual Regulatory Role for Thyroid-hormone Receptors Allows Control of Retinoic-acid Receptor Activity
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Both thyroid hormone (T3) and retinoic acid signal essential steps in development, differentiation and morphogenesis. Specific nuclear receptors for these ligands have recently been cloned. Previously we have noted a close homology between the DNA-binding domains of the epsilon-retinoic acid receptor (RAR-epsilon, also designated RAR-beta), the thyroid hormone receptors and the oestrogen receptor. We have now found that RAR-epsilon is very efficient at inducing transcription from two distinct thyroid-hormone responsive elements (TREs). Transcription induced by ligand-activated RAR-epsilon from a TRE can, however, be repressed by thyroid-hormone receptor in the absence of its ligand. Conversely, in the presence of its ligand, thyroid-hormone receptor will activate transcription from a TRE irrespective of the presence of unbound RAR. The use of hybrid receptors has shown that the DNA-binding domain of RAR is the essential target for inhibition by thyroid-hormone receptors. These data, together with in vitro DNA-binding studies, suggest that thyroid-hormone receptors may have dual regulatory roles: in the presence of hormone they function as TRE-specific transcriptional activators; in the absence of hormone, however, they can function as TRE-specific repressors.
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