Development of oculomotor axon projections in the chick embryo
journal contribution
posted on 2023-06-09, 07:07 authored by John Kevin Chilton, Sarah GuthrieSarah GuthrieThe pattern of innervation of the extraocular muscles is highly conserved across higher vertebrate species and mediates sophisticated visuomotor processes. Defects in oculomotor development often lead to strabismus, a misalignment of the eyes that can cause partial blindness. Although it has been intensively studied from a clinical perspective, relatively little is known about how the system develops embryonically. We have therefore mapped the development of the oculomotor nerve (OMN) in chick embryos by using confocal microscopy. We show that OMN development follows a series of stereotyped steps that are tightly regulated in space and time. The OMN initially grows past three of its targets to innervate its distal target, the ventral oblique muscle, only later forming branches to the more proximal muscles. We have also investigated spatiotemporal aspects of the unusual contralateral migration of a subpopulation of oculomotor neurons by using molecular markers and have found the semaphorin axon guidance molecules and their receptors, the neuropilins, to be expressed in discrete subnuclei during this migration. Finally, we have created an embryological model of Duane retraction syndrome (DRS), a form of strabismus in which the OMN is believed to innervate aberrantly the lateral rectus, the normal target of the abducens nerve. By ablating rhombomeres 5 and 6 and hence the abducens, we have mimicked a proposed oculomotor deficit occurring in DRS. We find that the absence of the abducens nerve is not sufficient to produce this inappropriate innervation, so other factors are required to explain DRS. J. Comp. Neurol. 472:308–317, 2004. © 2004 Wiley-Liss, Inc.
Funding
Human Frontiers Science Project; RG0145/1998B
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Publication status
- Published
Journal
The Journal of Comparative NeurologyISSN
0021-9967Publisher
The Comapny of Biologists LtdExternal DOI
Issue
3Volume
472Page range
308-317Department affiliated with
- Neuroscience Publications
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- No
Peer reviewed?
- Yes
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2017-07-11Usage metrics
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