空间工作记忆期间背内侧纹状体中的分离序列活动与刺激编码

Dissociated sequential activity and stimulus encoding in the dorsomedial striatum during spatial working memory.

作者信息

Akhlaghpour Hessameddin, Wiskerke Joost, Choi Jung Yoon, Taliaferro Joshua P, Au Jennifer, Witten Ilana B

机构信息

Princeton Neuroscience Institute, Princeton University, Princeton, United States.

Department of Psychology, Princeton University, Princeton, United States.

出版信息

Elife. 2016 Sep 16;5:e19507. doi: 10.7554/eLife.19507.

DOI:10.7554/eLife.19507

PMID:27636864

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5053805/

Abstract

Several lines of evidence suggest that the striatum has an important role in spatial working memory. The neural dynamics in the striatum have been described in tasks with short delay periods (1-4 s), but remain largely uncharacterized for tasks with longer delay periods. We collected and analyzed single unit recordings from the dorsomedial striatum of rats performing a spatial working memory task with delays up to 10 s. We found that neurons were activated sequentially, with the sequences spanning the entire delay period. Surprisingly, this sequential activity was dissociated from stimulus encoding activity, which was present in the same neurons, but preferentially appeared towards the onset of the delay period. These observations contrast with descriptions of sequential dynamics during similar tasks in other brains areas, and clarify the contribution of the striatum to spatial working memory.

摘要

多条证据表明，纹状体在空间工作记忆中起着重要作用。纹状体中的神经动力学已在延迟期较短（1-4秒）的任务中得到描述，但对于延迟期较长的任务，其特征仍很大程度上未被明确。我们收集并分析了大鼠背内侧纹状体的单神经元记录，这些大鼠执行了延迟长达10秒的空间工作记忆任务。我们发现神经元是顺序激活的，这些序列跨越了整个延迟期。令人惊讶的是，这种顺序活动与刺激编码活动分离，刺激编码活动存在于相同的神经元中，但优先出现在延迟期开始时。这些观察结果与其他脑区在类似任务中的顺序动力学描述形成对比，并阐明了纹状体对空间工作记忆的贡献。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e5a5/5053805/f132bc0d1389/elife-19507-fig1.jpg

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空间工作记忆期间背内侧纹状体中的分离序列活动与刺激编码

Dissociated sequential activity and stimulus encoding in the dorsomedial striatum during spatial working memory.

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