Endothelins are vascular-derived axonal guidance cues for developing sympathetic neurons.

Authors:
Makita T, Sucov HM, Gariepy CE, Yanagisawa M, Ginty DD
Associated Labs:
Ginty Lab (Johns Hopkins University and School of Medicine)
Nature. 2008 Apr 10. 452(7188):759-63.
PMID: 18401410
During development, sympathetic neurons extend axons along a myriad of distinct trajectories, often consisting of arteries, to innervate one of a large variety of distinct final target tissues. Whether or not subsets of neurons within complex sympathetic ganglia are predetermined to innervate select end-organs is unknown. Here we demonstrate in mouse embryos that the endothelin family member Edn3 (ref. 1), acting through the endothelin receptor EdnrA (refs 2, 3), directs extension of axons of a subset of sympathetic neurons from the superior cervical ganglion to a preferred intermediate target, the external carotid artery, which serves as the gateway to select targets, including the salivary glands. These findings establish a previously unknown mechanism of axonal pathfinding involving vascular-derived endothelins, and have broad implications for endothelins as general mediators of axonal growth and guidance in the developing nervous system. Moreover, they suggest a model in which newborn sympathetic neurons distinguish and choose between distinct vascular trajectories to innervate their appropriate end organs.

Want to be recognized as an author of this publication?

Create your LabLife profile and tag yourself! You will also be able to tag other authors after you log into your account.

Create New Account

Login

What is LabLife?

LabLife is a collection of tools to help scientists organize, share and discover.

Learn more