Department of Neurosciences, University of California, La Jolla, CA 92093-0626, USA.
Proc Natl Acad Sci U S A. 2011 Feb 8;108(6):2545-50. doi: 10.1073/pnas.1014335108. Epub 2011 Jan 21.
Cortical networks undergo adaptations during learning, including increases in dendritic complexity and spines. We hypothesized that structural elaborations during learning are restricted to discrete subsets of cells preferentially activated by, and relevant to, novel experience. Accordingly, we examined corticospinal motor neurons segregated on the basis of their distinct descending projection patterns, and their contribution to specific aspects of motor control during a forelimb skilled grasping task in adult rats. Learning-mediated structural adaptations, including extensive expansions of spine density and dendritic complexity, were restricted solely to neurons associated with control of distal forelimb musculature required for skilled grasping; neurons associated with control of proximal musculature were unchanged by the experience. We further found that distal forelimb-projecting and proximal forelimb-projecting neurons are intermingled within motor cortex, and that this distribution does not change as a function of skill acquisition. These findings indicate that representations of novel experience in the adult motor cortex are associated with selective structural expansion in networks of functionally related, active neurons that are distributed across a single cortical domain. These results identify a distinct parcellation of cortical resources in support of learning.
皮质网络在学习过程中会发生适应性变化,包括树突复杂性和棘突的增加。我们假设,学习过程中的结构细化仅限于特定的细胞亚群,这些细胞群被新经验优先激活,并与新经验相关。因此,我们检查了成年大鼠在前肢熟练抓取任务中,根据其不同的下行投射模式分离的皮质脊髓运动神经元,以及它们对运动控制特定方面的贡献。学习介导的结构适应性变化,包括棘突密度和树突复杂性的广泛扩展,仅局限于与熟练抓取所需的远端前肢肌肉控制相关的神经元;与近端肌肉控制相关的神经元不受该经验的影响。我们还发现,支配远端前肢的神经元和支配近端前肢的神经元在运动皮层中相互混合,并且这种分布不会随着技能习得而改变。这些发现表明,成年运动皮层中对新经验的表示与功能相关的活跃神经元网络的选择性结构扩展有关,这些神经元分布在单个皮层区域内。这些结果确定了支持学习的皮质资源的一个独特分区。