Wnt5a and Notum influence the temporal dynamics of cartilaginous mesenchymal condensations in developing trachea
Natalia Bottasso-Arias, Megha Mohanakrishnan, Sarah Trovillion, Kaulini Burra, Nicholas X. Russell, Yixin Wu, Yan Xu, Debora Sinner

TL;DR
This study shows how Wnt5a and Notum control the timing of cartilage formation in developing trachea, which could help understand tracheal birth defects.
Contribution
The study reveals that Notum and Wnt5a coordinate chondrogenesis timing in tracheal development, impacting congenital anomalies.
Findings
Notum inhibition delays cartilaginous mesenchymal condensations in trachea.
Wnt5a deletion causes premature chondrogenesis and altered gene expression.
Non-canonical Wnt signaling influences timely cartilage formation in trachea.
Abstract
The trachea is essential for proper airflow to the lungs for gas exchange. Frequent congenital tracheal malformations affect the cartilage, causing the collapse of the central airway during the respiratory cycle. We have shown that Notum, a Wnt ligand de-acylase that attenuates the canonical branch of the Wnt signaling pathway, is necessary for cartilaginous mesenchymal condensations. In Notum deficient tracheas, chondrogenesis is delayed, and the tracheal lumen is narrowed. It is unknown if Notum attenuates non-canonical Wnt signaling. We observed premature tracheal chondrogenesis after mesenchymal deletion of the non-canonical Wnt5a ligand. We hypothesize that Notum and Wnt5a are required to mediate the timely formation of mesenchymal condensations, giving rise to the tracheal cartilage. Ex vivo culture of tracheal tissue shows that chemical inhibition of the Wnt non-canonical…
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Taxonomy
TopicsNeonatal Respiratory Health Research · Congenital Diaphragmatic Hernia Studies · Cancer-related gene regulation
