Ascending inputs to the pre-supplementary motor area in the macaque monkey: cerebello- and pallido-thalamocortical projections

Sharleen T Sakai , Iwona Stepniewska , Huixin Qi , Jon H Kaas
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引用次数: 1

Abstract

The goal of the present study was to determine the ascending sources to the pre-supplementary motor area (pre-SMA) in macaque monkeys using multiple labeling techniques. We labeled the pallidothalamic projections using biotinylated dextran amine (BDA) and the cerebellothalamic projections using wheatgerm agglutinin conjugated to horseradish peroxidase. The pre-SMA thalamocortical projections neurons were also labeled using cholera toxin subunit b following identification of the pre-SMA by location, and by movements evoked by intracortical microstimulation. The extent of pre-SMA was later confirmed by identifying characteristics from Nissl cytoarchitecture and SMI-32 immunoreactivity. Thalamic nuclear boundaries were based on Nissl cytoarchitecture, acetylcholinesterase chemoarchitecture and Cat-301 immunoreactivity. Cerebellothalamic afferents were distributed predominantly to ventral lateral posterior nucleus (VLp), including medial and dorsal VLp, while the pallidothalamic afferents projected more rostrally to ventral lateral anterior nucleus (VLa) and ventral anterior nucleus (VA). The pre-SMA thalamocortical projection neurons were primarily found in VA and medial VLp. However, scattered cells were also found in VLa, dorsal VLp, central lateral nucleus (CL) and mediodorsal nucleus (MD). Scattered pre-SMA projecting cells overlapped foci of cerebellar label in medial VLp. Additionally, limited overlap of pre-SMA cells and pallidothalamic labeling was found in caudal VA. These findings suggest that the pre-SMA is uniquely positioned to integrate ascending basal ganglia and cerebellar information after a relay from VA and medial VLp. These anatomical findings are consistent with the recent hypothesis that the pre-SMA acts as the coordinator of visual and motor loops in motor learning [J. Cogn. Neurosci. 13 (2001) 626].

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猕猴补充前运动区域的上行输入:小脑和苍白球丘脑皮质投射
本研究的目的是利用多重标记技术确定猕猴辅助前运动区(pre-SMA)的上行源。我们用生物素化右旋糖酐胺(BDA)标记丘脑半球突起,用小麦胚芽凝集素结合辣根过氧化物酶标记小脑丘脑突起。在通过位置和皮层内微刺激引起的运动识别前sma后,也使用霍乱毒素亚基b标记了前sma丘脑皮质投射神经元。随后通过鉴定尼氏细胞结构和SMI-32免疫反应性的特征来确认sma前的程度。丘脑核边界基于尼氏细胞结构、乙酰胆碱酯酶化学结构和Cat-301免疫反应性。小脑丘脑传入神经主要分布在腹侧外侧后核(VLp),包括内侧和背侧VLp,而侧丘脑传入神经更多地向腹侧外侧前核(VLa)和腹侧前核(VA)投射。sma前丘脑皮质投射神经元主要分布在VA和内侧VLp。VLa、VLp背侧、中央外侧核(CL)和中背侧核(MD)也可见散在细胞。内侧VLp内分散的sma前突出细胞与小脑标记灶重叠。此外,在尾侧小脑区发现了有限的sma前细胞重叠和白头丘脑标记。这些发现表明,sma前细胞在从VA和内侧VLp传递信息后,具有独特的位置来整合上升基底节区和小脑的信息。这些解剖学发现与最近的假设一致,即前sma在运动学习中充当视觉和运动回路的协调者[J]。Cogn。神经科学,13(2001)626]。
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