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Tissue-specific splicing of a ubiquitously expressed transcription factor is essential for muscle differentiation.


ABSTRACT: Alternate splicing contributes extensively to cellular complexity by generating protein isoforms with divergent functions. However, the role of alternate isoforms in development remains poorly understood. Mef2 transcription factors are essential transducers of cell signaling that modulate differentiation of many cell types. Among Mef2 family members, Mef2D is unique, as it undergoes tissue-specific splicing to generate a muscle-specific isoform. Since the ubiquitously expressed (Mef2D?1) and muscle-specific (Mef2D?2) isoforms of Mef2D are both expressed in muscle, we examined the relative contribution of each Mef2D isoform to differentiation. Using both in vitro and in vivo models, we demonstrate that Mef2D isoforms act antagonistically to modulate differentiation. While chromatin immunoprecipitation (ChIP) sequencing analysis shows that the Mef2D isoforms bind an overlapping set of genes, only Mef2D?2 activates late muscle transcription. Mechanistically, the differential ability of Mef2D isoforms to activate transcription depends on their susceptibility to phosphorylation by protein kinase A (PKA). Phosphorylation of Mef2D?1 by PKA provokes its association with corepressors. Conversely, exon switching allows Mef2D?2 to escape this inhibitory phosphorylation, permitting recruitment of Ash2L for transactivation of muscle genes. Thus, our results reveal a novel mechanism in which a tissue-specific alternate splicing event has evolved that permits a ubiquitously expressed transcription factor to escape inhibitory signaling for temporal regulation of gene expression.

SUBMITTER: Sebastian S 

PROVIDER: S-EPMC3690398 | biostudies-literature | 2013 Jun

REPOSITORIES: biostudies-literature

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Tissue-specific splicing of a ubiquitously expressed transcription factor is essential for muscle differentiation.

Sebastian Soji S   Faralli Hervé H   Yao Zizhen Z   Rakopoulos Patricia P   Palii Carmen C   Cao Yi Y   Singh Kulwant K   Liu Qi-Cai QC   Chu Alphonse A   Aziz Arif A   Brand Marjorie M   Tapscott Stephen J SJ   Dilworth F Jeffrey FJ  

Genes & development 20130530 11


Alternate splicing contributes extensively to cellular complexity by generating protein isoforms with divergent functions. However, the role of alternate isoforms in development remains poorly understood. Mef2 transcription factors are essential transducers of cell signaling that modulate differentiation of many cell types. Among Mef2 family members, Mef2D is unique, as it undergoes tissue-specific splicing to generate a muscle-specific isoform. Since the ubiquitously expressed (Mef2Dα1) and mus  ...[more]

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