海马体位置细胞编码全局位置，但不编码复杂空间中的连接关系。

Hippocampal place cells encode global location but not connectivity in a complex space.

机构信息

Department of Experimental Psychology, Institute of Behavioural Neuroscience, University College London, London, UK; Department of Psychological and Brain Sciences, Dartmouth College, Hanover, NH, USA.

出版信息

Curr Biol. 2021 Mar 22;31(6):1221-1233.e9. doi: 10.1016/j.cub.2021.01.005. Epub 2021 Feb 12.

DOI:10.1016/j.cub.2021.01.005

PMID:33581073

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7988036/

Abstract

Flexible navigation relies on a cognitive map of space, thought to be implemented by hippocampal place cells: neurons that exhibit location-specific firing. In connected environments, optimal navigation requires keeping track of one's location and of the available connections between subspaces. We examined whether the dorsal CA1 place cells of rats encode environmental connectivity in four geometrically identical boxes arranged in a square. Rats moved between boxes by pushing saloon-type doors that could be locked in one or both directions. Although rats demonstrated knowledge of environmental connectivity, their place cells did not respond to connectivity changes, nor did they represent doorways differently from other locations. Place cells coded location in a global reference frame, with a different map for each box and minimal repetitive fields despite the repetitive geometry. These results suggest that CA1 place cells provide a spatial map that does not explicitly include connectivity.

摘要

灵活的导航依赖于对空间的认知地图，据认为该地图是通过海马体位置细胞来实现的：这些神经元表现出特定位置的放电。在连通的环境中，最佳导航需要跟踪自己的位置和子空间之间可用的连接。我们研究了在四个以正方形排列的几何形状相同的盒子里，大鼠的背侧 CA1 位置细胞是否编码环境连通性。大鼠通过推动沙龙式门在盒子之间移动，门可以向一个或两个方向锁定。尽管大鼠表现出对环境连通性的了解，但它们的位置细胞对连通性变化没有反应，也没有将门与其他位置区分开来。位置细胞以全局参考系编码位置，每个盒子都有一个不同的地图，尽管几何形状重复，但重复的区域很少。这些结果表明，CA1 位置细胞提供了一个不明确包含连通性的空间地图。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3423/7988036/b0170f03b973/gr1.jpg

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海马体位置细胞编码全局位置，但不编码复杂空间中的连接关系。

Hippocampal place cells encode global location but not connectivity in a complex space.

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