- 作者:Xin-peng Dun<sup>asup><sup> ; sup><sup>xin-peng.dun@pms.ac.uksup> ; Tiago Bandeira de Lima<sup>asup><sup> ; sup><sup>tiago.lima@pms.ac.uksup> ; James Allen<sup>asup><sup> ; sup><sup>james.allen@pms.ac.uksup> ; Sara Geraldo<sup>bsup><sup> ; sup><sup>1sup><sup> ; sup><sup>sara.geraldo@curie.frsup> ; Phillip Gordon-Weeks<sup>bsup><sup> ; sup><sup>phillip.gordon-weeks@kcl.ac.uksup> ; John K. Chilton<sup>asup><sup> ; sup><sup>john.chilton@pms.ac.uksup>
- 关键词:OMN ; oculomotor nucleus ; PCN ; precerebellar nuclei ; YFP ; yellow fluorescent protein
- 刊名:Molecular and Cellular Neuroscience
- 出版年:2012
- 期刊代码:173_10447431
- 类别:bio
- 出版时间:March, 2012
- 卷:49
- 期:3
- 页码:341-350
- 文件大小:2847 K
Using the migration of oculomotor neurons as a model, we have shown that drebrin is necessary for the generation and guidance of the leading process. In the absence of drebrin, leading processes are not formed and cells fail to migrate although axon growth and pathfinding appear grossly unaffected. Conversely, when levels of drebrin are elevated the leading processes turn away from their target and as a result the motor neuron cell bodies move along abnormal paths within the brain. The aberrant trajectories were highly reproducible suggesting that drebrin is required to interpret specific guidance cues. The axons and growth cones of these neurons display morphological changes, particularly increased branching and filopodial number but despite this they extend along normal developmental pathways.
Collectively these results show that drebrin is initially necessary for the formation of a leading process and subsequently for this to respond to navigational signals and grow in the correct direction. Furthermore, we have shown that the actions of drebrin can be segregated within individual motor neurons to direct their migration independently of axon guidance.