重温映射:海马如何表现不同的空间。

IF 28.7 1区 医学 Q1 NEUROSCIENCES
André A. Fenton
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引用次数: 0

摘要

海马位置细胞对不同空间的表征与其位置场(环境中位置细胞强烈放电的位置)的变化有关,这种现象被称为 "重映射"。重映射现象被认为伴随着场所细胞间亚秒级协同放电关系的重组,从而有可能最大限度地提高海马的信息编码能力。然而,一些观察结果对这一标准观点提出了质疑。例如,位置细胞表现出混合选择性,编码非位置变量,可以有多个位置场,并在固定环境中表现出不可靠的放电。此外,最近的证据表明,当以亚秒级时间尺度测量时,一对细胞在一个环境中的瞬间协同作用在另一个环境中非常相似,尽管存在重映射。在此,我提出重映射是对不同环境中位置场变化的一种误称,并认为海马活动的内部组织多方面表征被积极记录到不同的环境中,以实现导航、促进记忆和组织知识。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Remapping revisited: how the hippocampus represents different spaces

Remapping revisited: how the hippocampus represents different spaces

Remapping revisited: how the hippocampus represents different spaces
The representation of distinct spaces by hippocampal place cells has been linked to changes in their place fields (the locations in the environment where the place cells discharge strongly), a phenomenon that has been termed ‘remapping’. Remapping has been assumed to be accompanied by the reorganization of subsecond cofiring relationships among the place cells, potentially maximizing hippocampal information coding capacity. However, several observations challenge this standard view. For example, place cells exhibit mixed selectivity, encode non-positional variables, can have multiple place fields and exhibit unreliable discharge in fixed environments. Furthermore, recent evidence suggests that, when measured at subsecond timescales, the moment-to-moment cofiring of a pair of cells in one environment is remarkably similar in another environment, despite remapping. Here, I propose that remapping is a misnomer for the changes in place fields across environments and suggest instead that internally organized manifold representations of hippocampal activity are actively registered to different environments to enable navigation, promote memory and organize knowledge. The location-specific firing of hippocampal place cells changes when an animal enters a new environment, a phenomenon known as ‘remapping’. In this Perspective, André A. Fenton challenges standard models of place cell remapping and proposes a key role for the ‘re-registration’ of internally organized place cell population dynamics in the encoding of distinct environments.
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来源期刊
自引率
0.60%
发文量
104
期刊介绍: Nature Reviews Neuroscience is a multidisciplinary journal that covers various fields within neuroscience, aiming to offer a comprehensive understanding of the structure and function of the central nervous system. Advances in molecular, developmental, and cognitive neuroscience, facilitated by powerful experimental techniques and theoretical approaches, have made enduring neurobiological questions more accessible. Nature Reviews Neuroscience serves as a reliable and accessible resource, addressing the breadth and depth of modern neuroscience. It acts as an authoritative and engaging reference for scientists interested in all aspects of neuroscience.
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