Kim Taehyeon, Hooks Bryan M
Center for Neuroscience University of Pittsburgh (CNUP) and.
Department of Neurobiology, University of Pittsburgh School of Medicine, Pittsburgh, PA.
bioRxiv. 2024 Dec 21:2024.07.19.604309. doi: 10.1101/2024.07.19.604309.
Learning motor skills requires plasticity in the primary motor cortex (M1). But the capacity for cortical circuit plasticity varies over developmental age in sensory cortex. This study assesses the normal developmental trajectory of motor learning to assess how aptitude might vary with age. We trained mice of both sexes to run on a custom accelerating rotarod at ages from postnatal day (P) 20 to P120, tracking paw position and quantifying time to fall and changes in gait pattern. While animals of all ages were able to perform better after five training sessions, performance improved most rapidly on the first training day for mice between ages P30-60, suggesting an age with heightened plasticity. Learning this task required M1, because pharmacological inactivation of M1 prevented improvement in task performance. Paw position and gait patterns changed with learning, though differently between age groups. Successful mice learned to shift their gait from hopping to walking. Notably, this shift in gait happened earlier in the trial for forelimbs in comparison to hindlimbs. Thus, motor plasticity might more readily occur in forelimbs. Changes in gait and other kinematic parameters are an additional learning metric beyond time to fall, offering insight into how mice improve performance. Overall, these results suggest mouse motor learning has a developmental trajectory.
学习运动技能需要初级运动皮层(M1)具备可塑性。但感觉皮层中皮质回路可塑性的能力会随发育年龄而变化。本研究评估运动学习的正常发育轨迹,以评估能力如何随年龄变化。我们训练雌雄小鼠在定制的加速旋转杆上奔跑,从出生后第20天(P20)到第120天(P120),追踪爪子位置并量化掉落时间和步态模式的变化。虽然所有年龄段的动物在五次训练后都能表现得更好,但对于P30 - 60年龄段的小鼠,在第一次训练日表现改善最为迅速,这表明该年龄段可塑性增强。学习这项任务需要M1,因为M1的药理学失活会阻止任务表现的改善。爪子位置和步态模式随学习而改变,不过不同年龄组之间存在差异。成功的小鼠学会了将步态从跳跃转变为行走。值得注意的是,与后肢相比,前肢在试验中更早出现这种步态转变。因此,运动可塑性可能在前肢中更容易发生。步态和其他运动学参数的变化是除掉落时间之外的另一种学习指标,有助于深入了解小鼠如何提高表现。总体而言,这些结果表明小鼠运动学习具有发育轨迹。