Integrity of developing spinal motor columns is regulated by neural crest derivatives at motor exit points

M Vermeren; G S Maro; R Bron; I M McGonnell; P Charnay; P Topilko; J Cohen

doi:10.1016/S0896-6273(02)01188-1

Integrity of developing spinal motor columns is regulated by neural crest derivatives at motor exit points

M Vermeren, G S Maro, R Bron, I M McGonnell, P Charnay, P Topilko, J Cohen

King's College London

Research output: Contribution to journal › Article › peer-review

112 Citations (Scopus)

Abstract

Spinal motor neurons must extend their axons into the periphery through motor exit points (MEPs), but their cell bodies remain within spinal motor columns. It is not known how this partitioning is established in development. We show here that motor neuron somata are confined to the CNS by interactions with a neural crest subpopulation, boundary cap (BC) cells that prefigure the sites of spinal MEPs. Elimination of BC cells by surgical or targeted genetic ablation does not perturb motor axon outgrowth but results in motor neuron somata migrating out of the spinal cord by translocating along their axons. Heterologous neural crest grafts in crest-ablated embryos stop motor neuron emigration. Thus, before the formation of a mature transitional zone at the MEP, BC cells maintain a cell-tight boundary that allows motor axons to cross but blocks neuron migration.

Original language	English
Pages (from-to)	403 - 415
Number of pages	13
Journal	Neuron
Volume	37
Issue number	3
DOIs	https://doi.org/10.1016/S0896-6273(02)01188-1
Publication status	Published - 6 Feb 2003

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10.1016/S0896-6273(02)01188-1

http://linkinghub.elsevier.com/retrieve/pii/S0896627302011881

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abstract = "Spinal motor neurons must extend their axons into the periphery through motor exit points (MEPs), but their cell bodies remain within spinal motor columns. It is not known how this partitioning is established in development. We show here that motor neuron somata are confined to the CNS by interactions with a neural crest subpopulation, boundary cap (BC) cells that prefigure the sites of spinal MEPs. Elimination of BC cells by surgical or targeted genetic ablation does not perturb motor axon outgrowth but results in motor neuron somata migrating out of the spinal cord by translocating along their axons. Heterologous neural crest grafts in crest-ablated embryos stop motor neuron emigration. Thus, before the formation of a mature transitional zone at the MEP, BC cells maintain a cell-tight boundary that allows motor axons to cross but blocks neuron migration.",

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AU - Vermeren, M

AU - Maro, G S

AU - Bron, R

AU - McGonnell, I M

AU - Charnay, P

AU - Topilko, P

AU - Cohen, J

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AB - Spinal motor neurons must extend their axons into the periphery through motor exit points (MEPs), but their cell bodies remain within spinal motor columns. It is not known how this partitioning is established in development. We show here that motor neuron somata are confined to the CNS by interactions with a neural crest subpopulation, boundary cap (BC) cells that prefigure the sites of spinal MEPs. Elimination of BC cells by surgical or targeted genetic ablation does not perturb motor axon outgrowth but results in motor neuron somata migrating out of the spinal cord by translocating along their axons. Heterologous neural crest grafts in crest-ablated embryos stop motor neuron emigration. Thus, before the formation of a mature transitional zone at the MEP, BC cells maintain a cell-tight boundary that allows motor axons to cross but blocks neuron migration.

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Integrity of developing spinal motor columns is regulated by neural crest derivatives at motor exit points

Abstract

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