Citation:
J Comp Neurol. 2011 Feb 11. doi: 10.1002/cne.22602. [Epub ahead of print]
Abstract:
N-cadherin is a classical type I cadherin that contributes to the formation of neural circuits by regulating growth cone migration and the formation of synaptic contacts. This study analyzed the role of N-cadherin in primary motor axons growth during development of the zebrafish (Danio rerio) embryo. After exiting the spinal cord, primary motor axons migrate ventrally through a common pathway and form the first neuromuscular junction with the muscle pioneer cells located at the horizontal myoseptum, which serves as a choice point for cell-type specific pathway selection. Analysis of N-cadherin mutants (cdh2(hi3644Tg) ) and embryos injected with N-cadherin antisense morpholinos showed primary motor axons extending aberrant axonal branches at the choice point in ∼40% of the somitic hemisegments, and an ∼150% increase in the number of branches per axon length within the ventral myotome. Analysis of individual axons trajectories showed that the caudal (CaP) and rostral (RoP) motor neurons axons formed aberrant branches at the choice point which abnormally extended in the rostrocaudal axis and ventrally to the horizontal myoseptum. Expression of a dominant-interfering N-cadherin cytoplasmic domain in primary motor neurons caused some axons to abnormally stall at the horizontal myoseptum and to impair their migration into the ventral myotome. However, in N-cadherin depleted embryos the majority of primary motor axons innervated their appropriate myotomal territories indicating that N-cadherin regulates motor axon growth and branching without severely affecting the mechanisms that control axonal target selection.
Organism or Cell Type:
zebrafish
Delivery Method:
Microinjection