Division of System Neurophysiology, National Institute for Physiological Sciences, Okazaki 444-8585, Japan.
Department of Physiological Sciences, SOKENDAI (The Graduate University for Advanced Studies), Okazaki 444-8585, Japan.
J Neurosci. 2024 Mar 20;44(12):e1911222024. doi: 10.1523/JNEUROSCI.1911-22.2024.
The subthalamic nucleus (STN) receives cortical inputs via the and pathways, projects to the output nuclei of the basal ganglia, and plays a critical role in the control of voluntary movements and movement disorders. STN neurons change their activity during execution of movements, while recent studies emphasize STN activity specific to cancelation of movements. To address the relationship between execution and cancelation functions, we examined STN activity in two Japanese monkeys (, both sexes) who performed a goal-directed reaching task with a delay that included Go, Cancel, and NoGo trials. We first examined responses to the stimulation of the forelimb regions in the primary motor cortex and/or supplementary motor area. STN neurons with motor cortical inputs were found in the dorsal somatomotor region of the STN. All these STN neurons showed activity changes in Go trials, suggesting their involvement in execution of movements. Part of them exhibited activity changes in Cancel trials and sustained activity during delay periods, suggesting their involvement in cancelation of planed movements and preparation of movements, respectively. The STN neurons rarely showed activity changes in NoGo trials. Go- and Cancel-related activity was selective to the direction of movements, and the selectivity was higher in Cancel trials than in Go trials. Changes in Go- and Cancel-related activity occurred early enough to initiate and cancel movements, respectively. These results suggest that the dorsal somatomotor region of the STN, which receives motor cortical inputs, is involved in preparation and execution of movements and cancelation of planned movements.
底丘脑核(STN)通过 和 途径接收皮质输入,投射到基底神经节的输出核团,并在控制自主运动和运动障碍中发挥关键作用。STN 神经元在执行运动时会改变其活动,而最近的研究强调了 STN 活动对运动取消的特异性。为了解执行和取消功能之间的关系,我们在两只日本猕猴( ,雌雄各一只)中检查了 STN 的活动,它们执行了一个带有延迟的目标导向的伸手任务,其中包括 Go、Cancel 和 NoGo 试验。我们首先检查了对初级运动皮层和/或辅助运动区的前肢区域刺激的反应。在 STN 的背侧躯体运动区发现了具有运动皮质输入的 STN 神经元。所有这些 STN 神经元在 Go 试验中都显示出活动变化,这表明它们参与了运动的执行。其中一部分在 Cancel 试验中显示出活动变化,并在延迟期间持续活动,这表明它们分别参与了计划运动的取消和运动的准备。STN 神经元在 NoGo 试验中很少显示出活动变化。Go 和 Cancel 相关的活动是针对运动方向的,并且在 Cancel 试验中比在 Go 试验中更具选择性。Go 和 Cancel 相关活动的变化发生得足够早,可以分别启动和取消运动。这些结果表明,接收运动皮质输入的 STN 的背侧躯体运动区参与了运动的准备、执行和计划运动的取消。