ZFIN ID: ZDB-PUB-120706-11
Zebrafish Mef2ca and Mef2cb are essential for both first and second heart field cardiomyocyte differentiation
Hinits, Y., Pan, L., Walker, C., Dowd, J., Moens, C.B., and Hughes, S.M.
Date: 2012
Source: Developmental Biology 369(2): 199-210 (Journal)
Registered Authors: Dowd, John, Hinits, Yaniv, Hughes, Simon M., Moens, Cecilia, Pan, Luyuan, Walker, Charline
Keywords: secondary heart field, mef2c, mef2ca, mef2cb, mef2a, heart, Hand2, Myl7, bulbus arteriosus, outflow tract, cardiomyocyte, differentiation
MeSH Terms:
  • Animals
  • Animals, Genetically Modified
  • Base Sequence
  • Cell Differentiation/genetics
  • DNA Primers/genetics
  • Gene Expression Regulation, Developmental
  • Heart/embryology
  • Muscle Development/genetics
  • Muscle Proteins/genetics*
  • Mutation
  • Myocardium/cytology
  • Myocytes, Cardiac/cytology*
  • Myocytes, Cardiac/metabolism*
  • Myogenic Regulatory Factors/genetics*
  • RNA, Messenger/genetics
  • RNA, Messenger/metabolism
  • Zebrafish/embryology*
  • Zebrafish/genetics*
  • Zebrafish Proteins/genetics*
PubMed: 22750409 Full text @ Dev. Biol.
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ABSTRACT

Mef2 transcription factors have been strongly linked with early heart development. D-mef2 is required for heart formation in Drosophila, but whether Mef2 is essential for vertebrate cardiomyocyte (CM) differentiation is unclear. In mice, although Mef2c is expressed in all CMs, targeted deletion of Mef2c causes lethal loss of second heart field (SHF) derivatives and failure of cardiac looping, but first heart field CMs can differentiate. Here we examine Mef2 function in early heart development in zebrafish. Two Mef2c genes exist in zebrafish, mef2ca and mef2cb. Both are expressed similarly in the bilateral heart fields but mef2cb is strongly expressed in the heart poles at the primitive heart tube stage. By using fish mutants for mef2ca and mef2cb and antisense morpholinos to knock down either or both Mef2cs, we show that Mef2ca and Mef2cb have essential but redundant roles in myocardial differentiation. Loss of both Mef2ca and Mef2cb function does not interfere with early cardiogenic markers such as nkx2.5, gata4 and hand2 but results in a dramatic loss of expression of sarcomeric genes and myocardial markers such as bmp4, nppa, smyd1b and late nkx2.5 mRNA. Rare residual CMs observed in mef2ca;mef2cb double mutants are ablated by a morpholino capable of knocking down other Mef2s. Mef2cb over-expression activates bmp4 within the cardiogenic region, but no ectopic CMs are formed. Surprisingly, anterior mesoderm and other tissues become skeletal muscle. Mef2ca single mutants have delayed heart development, but form an apparently normal heart. Mef2cb single mutants have a functional heart and are viable adults. Our results show that the key role of Mef2c in myocardial differentiation is conserved throughout the vertebrate heart.

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