Cell fate and axonal projections from the cerebral cortex

Seminars in Developmental Biology Pub Date : 1994-12-01 DOI:10.1006/sedb.1994.1046

Magdalena Götz, Jack Price

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引用次数: 6

Abstract

The formation of axonal connections in the nervous system involves cell-specific decisions of the growth cone. In this article we examine the contribution of early fate decisions to axonal pathfinding. Evidence is accumulating that different neuronal cell types in the cerebral cortex are specified during their final mitosis. It would seem that cortical projection neurons are pre-specified to choose particular pathways, since the newly generated neurons send out their axons in the correct direction from the onset of outgrowth. Pathfinding decisions that are made much later during development, such as the recognition of specific target-derived chemoattractants and the retraction of inappropriate axon collaterals, also seem to be at least partially pre-specified at much earlier developmental stages. Hence, the early determination of a neuron's phenotype includes the specification of axonal growth occuring over a protracted phase of development. Understanding more about the regulative events targeted to the growth cone should help us to unravel the decisions made by this specialized neuronal organelle.

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大脑皮层的细胞命运和轴突投射

神经系统中轴突连接的形成涉及生长锥的细胞特异性决定。在本文中，我们研究了早期命运决定对轴突寻径的贡献。越来越多的证据表明，大脑皮层中不同类型的神经元细胞在其最终有丝分裂过程中是特定的。皮层投射神经元似乎是预先指定的，以选择特定的途径，因为新生成的神经元从生长开始就向正确的方向发出轴突。在发育过程中较晚做出的寻路决策，如识别特定目标衍生的化学引诱剂和不适当的轴突侧枝的收缩，似乎也至少部分是在更早的发育阶段预先指定的。因此，神经元表型的早期确定包括轴突生长在一个漫长的发育阶段的规范。更多地了解针对生长锥的调节事件应该有助于我们解开这个特殊的神经细胞器做出的决定。

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Seminars in Developmental Biology

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