Myocardin is a direct transcriptional target of Mef2, Tead and Foxo proteins during cardiovascular development

doi:10.1242/dev.02610

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Development ePress online publication date 4 Oct 2006
doi: 10.1242/dev.02610

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Research article

Myocardin is a direct transcriptional target of Mef2, Tead and Foxo proteins during cardiovascular development

Esther E. Creemers, Lillian B. Sutherland, John McAnally, James A. Richardson, and Eric N. Olson^*
^* Author for correspondence (e-mail: eric.olson{at}utsouthwestern.edu)

Myocardin is a transcriptional co-activator of serum responsefactor (Srf), which is a key regulator of the expression ofsmooth and cardiac muscle genes. Consistent with its role inregulating cardiovascular development, myocardin is the earliestknown marker specific to both the cardiac and smooth musclelineages during embryogenesis. To understand how the expressionof this early transcriptional regulator is initiated and maintained,we scanned 90 kb of genomic DNA encompassing the myocardin genefor cis-regulatory elements capable of directing myocardin transcriptionin cardiac and smooth muscle lineages in vivo. Here, we describean enhancer that controls cardiovascular expression of the mousemyocardin gene during mouse embryogenesis and adulthood. Activityof this enhancer in the heart and vascular system requires thecombined actions of the Mef2 and Foxo transcription factors.In addition, the Tead transcription factor is required specificallyfor enhancer activation in neural-crest-derived smooth musclecells and dorsal aorta. Notably, myocardin also regulates itsown enhancer, but in contrast to the majority of myocardin targetgenes, which are dependent on Srf, myocardin acts through Mef2to control its enhancer. These findings reveal an Srf-independentmechanism for smooth and cardiac muscle-restricted transcriptionand provide insight into the regulatory mechanisms responsiblefor establishing the smooth and cardiac muscle phenotypes duringdevelopment.

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