Article

The FGF-BMP signaling axis regulates outflow tract valve primordium formation by promoting cushion neural crest cell differentiation.

Center for Cancer and Stem Cell Biology, Institute of Biosciences and Technology, Texas A&M Health Science Center, Houston, TX 77030-3303, USA.
Circulation Research (impact factor: 9.49). 11/2010; 107(10):1209-19. DOI:10.1161/CIRCRESAHA.110.225318 pp.1209-19
Source: PubMed

ABSTRACT Heart valves develop from precursor structures called cardiac cushions, an endothelial-lined cardiac jelly that resides in the inner side of the heart tube. The cushions are then invaded by cells from different sources, undergo a series of complicated and poorly understood remodeling processes, and give rise to valves. Disruption of the fibroblast growth factor (FGF) signaling axis impairs morphogenesis of the outflow tract (OFT). Yet, whether FGF signaling regulates OFT valve formation is unknown.
To study how OFT valve formation is regulated and how aberrant cell signaling causes valve defects.
By using mouse genetic manipulation, cell lineage tracing, ex vivo heart culture, and molecular biology approaches, we demonstrated that FGF signaling in the OFT myocardium upregulated Bmp4 expression, which then enhanced smooth muscle differentiation of neural crest cells (NCCs) in the cushion. FGF signaling also promoted OFT myocardial cell invasion to the cushion. Disrupting FGF signaling interrupted cushion remodeling with reduced NCCs differentiation into smooth muscle and less cardiomyocyte invasion and resulted in malformed OFT valves.
The results demonstrate a novel mechanism by which the FGF-BMP signaling axis regulates formation of OFT valve primordia by controlling smooth muscle differentiation of cushion NCCs.

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Keywords

cardiomyocyte invasion
 
cushion NCCs
 
different sources
 
enhanced smooth muscle differentiation
 
ex vivo heart culture
 
FGF signaling regulates OFT valve formation
 
FGF-BMP signaling axis regulates formation
 
fibroblast growth factor
 
heart tube
 
inner side
 
malformed OFT valves
 
molecular biology approaches
 
mouse genetic manipulation
 
NCCs differentiation
 
OFT myocardial cell invasion
 
OFT myocardium upregulated Bmp4 expression
 
OFT valve primordia
 
outflow tract
 
precursor structures
 
smooth muscle differentiation