Unknown,Transcriptomics,Genomics,Proteomics

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RNA-Seq profiling of C2C12 cells with exogenous expression of Mef2Da1 and Mef2Da2


ABSTRACT: Although splicing occurs in most multi-exon genes, the generation of distinct isoforms through the alternate use of mutually exclusive exons is less prevalent. As exon-switching events have the potential to give rise to isoforms with different cellular functions, we have explored the role of the muscle-specific (Mef2Da2) and ubiquitously expressed (Mef2Da1) isoforms of the transcription factor Mef2D in myogenesis. Here we show that both isoforms of Mef2D bind a largely overlapping subset of genomic loci, yet only the muscle-specific Mef2Da2 isoform can activate the late myogenic gene expression program. This differential ability to activate transcription is modulated by PKA signaling where Mef2Da1 is efficiently phosphorylated by the kinase to enhance its association with repressive HDAC-deacetylase complexes. In contrast, alternate exon usage in Mef2Da2 renders the protein resistant to PKA phosphorylation, allowing it to interact with transcriptionally permissive Ash2L-trithorax complex. Our findings support a model wherein alternative exon usage allows Mef2D to transition from a repressor to activator in a myogenic environment rich in PKA activity. Thus we have identified a novel paradigm in which a ubiquitously expressed transcription factor has evolved to undergo tissue-specific alternative exon usage to permit the proper temporal activation of a gene expression program during differentiation. RNA-Seq profiling of C2C12 cells with exogenous expression of Mef2Da1 and Mef2Da2

ORGANISM(S): Mus musculus

SUBMITTER: Alphonse Chu 

PROVIDER: E-GEOD-46363 | biostudies-arrayexpress |

REPOSITORIES: biostudies-arrayexpress

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Publications

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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