RT Journal Article
SR Electronic
T1 Pharyngeal pouches provide a niche microenvironment for arch artery progenitor specification
JF bioRxiv
FD Cold Spring Harbor Laboratory
SP 2020.05.07.083493
DO 10.1101/2020.05.07.083493
A1 Aihua Mao
A1 Linwei Li
A1 Jie Liu
A1 Mingming Zhang
A1 Guozhu Ning
A1 Yu Cao
A1 Qiang Wang
YR 2020
UL http://biorxiv.org/content/early/2020/05/10/2020.05.07.083493.abstract
AB The paired pharyngeal arch arteries (PAAs) are transient blood vessels connecting the heart with the dorsal aorta during embryogenesis. Although PAA malformations often occur along with pharyngeal pouch defects, the functional interaction between these adjacent tissues remains largely unclear. Here we report that the ablation of pouches in zebrafish embryos impairs PAA progenitor specification and leads to the absence of PAA structures. Through time-lapse imaging studies, we reveal that the segmentation of pharyngeal pouches coincides spatiotemporally with the emergence of PAA progenitor clusters. These pouches physically associate with pharyngeal mesoderm in discrete regions and provide a niche microenvironment for PAA progenitor commitment by expressing BMP proteins. Specifically, tissue specific knockdown experiments demonstrate that pouch-derived BMP2a and BMP5 are the primary niche cues responsible for activating the BMP/Smad pathway in pharyngeal mesoderm, thereby promoting progenitor specification. In addition, BMP2a and BMP5 play a primary inductive function in the expression of the cloche gene npas4l in PAA progenitors. Mutation of the cloche locus represses the specification of PAA progenitors and generates ectopic muscle precursors in the pharyngeal mesoderm. Therefore, our results support a critical role of pharyngeal pouches in establishing a progenitor niche for PAA morphogenesis via BMP2a/5 expression.