前肢
运动学习
神经科学
记忆巩固
运动皮层
运动技能
神经可塑性
心理学
生物
运动前神经元活动
刺激
海马体
作者
S. J. Wang,Nuo Xu,Wenwen Wang,Yongxiang He,Yuqian Yang,Liuning Zhang,Yanping Zou,Yuehua He,Hui‐Liang Li,Liang Gao,Lin Xiao
标识
DOI:10.1002/advs.202505367
摘要
Abstract Motor learning induces oligodendrocyte (OL) dynamics/plasticity during learning. However, it remains unclear whether different adaptive OL dynamics are required for different phases of motor learning and how they regulate neuronal activity. Here, we showed reduced oligodendrogenesis accompanied by elongated node length in the contra‐rostral forelimb area (cRFA) motor cortex during learning of the forelimb reaching task, both of which correlate with the learning performance. However, we observed increased oligodendrogenesis during the motor memory consolidation phase, which also correlates with the motor skill maintenance. Strikingly, Myrf conditional knockout (OPC‐ Myrf ‐cKO) mice, in which oligodendrogenesis can be artificially blocked, showed improved learning performance along with increased node length and increased task‐related neuronal activity in the cRFA when Myrf deletion (i.e., oligodendrogenesis blockade) is introduced prior to learning. However, they showed impaired rehearsal performance accompanied by decreased task‐related neuronal activity when gene deletion is induced after learning. These findings suggest that motor learning and consolidation may drive distinct OL plasticity to fine‐tune task‐related neuronal activity required at different phases.
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