Abstract

Introduction: Wnt5a is a known regulator of planar cell polarity (PCP) signaling in second heart field (SHF) progenitor cells. It is generally believed that Wnt5a ligands are secreted by the SHF; however, SHF-specific conditional deletion of Wnt5a does not recapitulate outflow tract (OFT) defects observed in global Wnt5a mutants. Hypothesis: Given the proximity and interaction between neural crest cells (NCC) and cranial SHF that contributes to the developing OFT, we hypothesize that NCC may serve as an additional source of Wnt5a for SHF progenitors. Methods: Wnt5a was conditionally deleted in the neural crest using transgenic Wnt1-cre mice. Embryos were harvested from control and mutant litter mates and immunofluoresence, in situ hybridization, and hematoxylin-eosin stains were performed on histologic sections using standard techniques. India ink injections were performed to evaluate pharyngeal arch artery and outflow tract morphology in whole mount embryos. Results: Wnt1-cre driven conditional deletion of Wnt5a in NCC did not impact NCC survival or migration into the developing OFT. However, SHF cells in mutant E10.5 embryos showed altered PCP signaling with reduced phalloidin and laminin expression. The resulting loss in polarized directional movement of the SHF led to reduced incorporation into and elongation of the developing OFT. The shortened OFT was mal-aligned resulting in fully penetrant double outlet right ventricle (DORV) at E14.5. In addition, maturation of pharyngeal arch arteries was also impaired such that all mutants express pharyngeal arch artery defects, including aortic arch abnormalities and aberrant right subclavian artery. In contrast, there was no observed effect on PCP in the more caudal SHF cells, and none of the mutant embryos had inflow tract or venous pole defects. Conclusions: Our results demonstrate that NCC are a novel source of Wnt5a. NCC-derived Wnt5a is critically required to regulate PCP signals in the most cranial SHF regulating the development of the OFT and pharyngeal arch arteries.

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