Abstract
Many eukaryotic transcription factors are bimodal in their regulatory properties and can both repress and activate expression of their target genes. These divergent transcriptional properties are conferred through recruitment of auxiliary proteins, denoted coactivators and corepressors. Repression plays a particularly critical role in the functions of the nuclear receptors, a large family of ligand-regulated transcription factors involved in metazoan development, differentiation, reproduction, and homeostasis. The SMRT corepressor interacts directly with nuclear receptors and serves, in turn, as a platform for the assembly of a larger corepressor complex. We report here that SMRT is expressed in cells by alternative mRNA splicing to yield two distinct variants or isoforms. We designate these isoforms SMRTalpha and SMRTtau and demonstrate that these isoforms have significantly different affinities for different nuclear receptors. These isoforms are evolutionarily conserved and are expressed in a tissue-specific manner. Our results suggest that differential mRNA splicing serves to customize corepressor function in different cells, allowing the transcriptional properties of nuclear receptors to be adapted to different contexts.
Highlights
Nuclear receptors are transcription factors that play multiple roles in metazoan development and physiology [1,2,3,4,5,6]
Our results suggest that differential mRNA splicing serves to customize corepressor function in different cells, allowing the transcriptional properties of nuclear receptors to be adapted to different contexts
We report here a further extension of this concept by demonstrating that SMRT is itself expressed by alternative mRNA splicing to generate at least two distinct isoforms that are expressed at different levels in different tissues
Summary
Ployed in tethering these corepressors to the two receptors that compose the dimer [41, 42, 48, 49]. Alternative mRNA splicing and promoter utilization result in further diversification of the receptors that are produced from a given locus (56 – 60) These various nuclear receptor isotypes are expressed in tissue- and development-specific patterns, display distinct interactions with corepressors and coactivators, and exhibit distinct transcriptional properties [50, 61]. We conclude that the receptor interaction properties of SMRT can be modified by alternative mRNA splicing and that, as a result, the repression properties of different nuclear receptors are likely to differ in different cell and tissue contexts These observations help reconcile apparent discrepancies in the literature as to the relative affinity of TRs for N-CoR versus SMRT [17, 35, 42, 48, 62, 63]
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