Andrew J. Bonser scite author profile

Atrial septal defect is one of the most common forms of congenital heart malformation. We identified a new locus linked with atrial septal defect on chromosome 14q12 in a large family with dominantly inherited atrial septal defect. The underlying mutation is a missense substitution, I820N, in alpha-myosin heavy chain (MYH6), a structural protein expressed at high levels in the developing atria, which affects the binding of the heavy chain to its regulatory light chain. The cardiac transcription factor TBX5 strongly regulates expression of MYH6, but mutant forms of TBX5, which cause Holt-Oram syndrome, do not. Morpholino knock-down of expression of the chick MYH6 homolog eliminates the formation of the atrial septum without overtly affecting atrial chamber formation. These data provide evidence for a link between a transcription factor, a structural protein and congenital heart disease.

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Characterization of the TBX5 binding site and analysis of mutations that cause Holt-Oram syndrome

Ghosh

et al. 2001

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Holt-Oram syndrome is caused by mutations in TBX5, a member of the T-box gene family. In order to identify DNA sequences to which the TBX5 protein binds, we have performed an in vitro binding site selection assay. We have identified an 8 bp core sequence that is part of the Brachyury consensus-binding site. We show that TBX5 binds to the full palindromic Brachyury binding site and to the half-palindrome, whereas Brachyury does not bind to the TBX5 site. Amino acids 1-237 of TBX5 are required for DNA binding. Analysis of the effects of specific substitution mutations that arise in Holt-Oram patients indicates that G80R and R237Q eliminate binding to the target site. DNA database analysis reveals that target sites are present in the upstream regions of several cardiac-expressed genes including cardiac alpha actin, atrial natriuretic factor, cardiac myosin heavy chain alpha, cardiac myosin heavy chain beta, myosin light chain 1A, myosin light chain 1V and Nkx2.5. Cell transfection studies demonstrate that TBX5 activates the transcription of an atrial natriuretic factor reporter construct and this effect is significantly reduced by deletion of the TBX5 binding site.

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Physical Interaction between TBX5 and MEF2C Is Required for Early Heart Development

Ghosh

Song

Packham

et al. 2009

Molecular and Cellular Biology

112

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TBX5 is a transcription factor which plays important roles in the development of the heart and upper limbs. Mutations in this gene produce the inherited disorder Holt-Oram syndrome. Here, we report a physical interaction between TBX5 and MEF2C leading to a synergistic activation of the ␣-cardiac myosin heavy chain (MYH6). Mutants of TBX5, TBX5G80R, and TBX5R279X that produce severe cardiac phenotypes impair the synergy. Using fluorescence resonance energy transfer, we demonstrate the interaction of TBX5 and MEF2C in living cells. We also show that they physically associate through their DNA-binding domains to form a complex on the MYH6 promoter. Morpholino-mediated knockdowns of Tbx5 and Mef2c in zebrafish suggest that the genetic interaction of these proteins is not only required for MYH6 expression but also essential for the early stages of heart development and survival. This is the first report of a functional interaction between a T-box protein and a MADS box factor that may be crucial in cardiomyocyte differentiation.

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Andrew J. Bonser

Mutation in myosin heavy chain 6 causes atrial septal defect

Characterization of the TBX5 binding site and analysis of mutations that cause Holt-Oram syndrome

Physical Interaction between TBX5 and MEF2C Is Required for Early Heart Development

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