Research Department of Cell and Developmental Biology, University College London, London, WC1E 6BT, UK.
J Neurosci. 2012 Jan 11;32(2):490-505. doi: 10.1523/JNEUROSCI.4382-11.2012.
Motor neurons that control limb movements are organized as a neuronal nucleus in the developing ventral horn of the spinal cord called the lateral motor column. Neuronal migration segregates motor neurons into distinct lateral and medial divisions within the lateral motor column that project axons to dorsal or ventral limb targets, respectively. This migratory phase is followed by an aggregation phase whereby motor neurons within a division that project to the same muscle cluster together. These later phases of motor neuron organization depend on limb-regulated differential cadherin expression within motor neurons. Initially, all motor neurons display the same cadherin expression profile, which coincides with the migratory phase of motor neuron segregation. Here, we show that this early, pan-motor neuron cadherin function drives the divisional segregation of spinal motor neurons in the chicken embryo by controlling motor neuron migration. We manipulated pan-motor neuron cadherin function through dissociation of cadherin binding to their intracellular partners. We found that of the major intracellular transducers of cadherin signaling, γ-catenin and α-catenin predominate in the lateral motor column. In vivo manipulations that uncouple cadherin-catenin binding disrupt divisional segregation via deficits in motor neuron migration. Additionally, reduction of the expression of cadherin-7, a cadherin predominantly expressed in motor neurons only during their migration, also perturbs divisional segregation. Our results show that γ-catenin-dependent cadherin function is required for spinal motor neuron migration and divisional segregation and suggest a prolonged role for cadherin expression in all phases of motor neuron organization.
控制肢体运动的运动神经元组织成脊髓腹角中的神经元核,称为外侧运动柱。神经元迁移将运动神经元分隔成外侧运动柱内的不同外侧和内侧部分,它们分别将轴突投射到背部或腹部肢体靶标。这个迁移阶段之后是聚集阶段,在这个阶段中,投射到同一肌肉群的一个分支内的运动神经元聚集在一起。运动神经元组织的这些后期阶段取决于运动神经元内的肢体调节的差异钙粘蛋白表达。最初,所有运动神经元都表现出相同的钙粘蛋白表达谱,这与运动神经元分离的迁移阶段一致。在这里,我们表明,这种早期的、泛运动神经元钙粘蛋白功能通过控制运动神经元迁移来驱动鸡胚脊髓运动神经元的分支分离。我们通过钙粘蛋白与其细胞内伙伴的结合解离来操纵泛运动神经元钙粘蛋白功能。我们发现,钙粘蛋白信号的主要细胞内转导子γ-连环蛋白和α-连环蛋白在外侧运动柱中占主导地位。体内操纵钙粘蛋白-连环蛋白结合的解偶联会通过运动神经元迁移缺陷破坏分支分离。此外,钙粘蛋白-7 的表达减少,钙粘蛋白-7 仅在运动神经元迁移期间在运动神经元中表达,也会扰乱分支分离。我们的结果表明,γ-连环蛋白依赖性钙粘蛋白功能是脊髓运动神经元迁移和分支分离所必需的,并表明钙粘蛋白表达在运动神经元组织的所有阶段都具有延长的作用。