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在随后的睡眠中,当出现尖锐波涟漪时,代表新觉醒体验的 CA3 位置细胞会被优先重新激活。

CA3 place cells that represent a novel waking experience are preferentially reactivated during sharp wave-ripples in subsequent sleep.

机构信息

Center for Learning and Memory, The University of Texas at Austin, Austin, Texas.

Institute for Neuroscience, The University of Texas at Austin, Austin, Texas.

出版信息

Hippocampus. 2019 Oct;29(10):921-938. doi: 10.1002/hipo.23090. Epub 2019 Mar 19.

DOI:10.1002/hipo.23090
PMID:30891854
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7412067/
Abstract

A popular model of memory consolidation posits that recent memories stored in the hippocampus are reactivated during sleep and thereby transferred to neocortex for long-term storage. This process is thought to occur during sharp wave-ripples (SWRs) in nonrapid eye movement sleep (NREM). However, whether the hippocampus consolidates all recent memories in the same manner remains unclear. An efficient memory system may extract novel information from recent experiences for preferential consolidation. In the hippocampus, memories are thought to be stored initially in CA3. Therefore, CA3 place cells that encode novel experiences may be preferentially reactivated during SWRs in subsequent sleep. To test this hypothesis, we recorded CA3 place cells in rats during exposure to a familiar and a novel environment and during subsequent overnight sleep. We found that CA3 place cells that preferentially coded a novel environment showed larger firing rate increases during SWRs in NREM than place cells that preferentially coded a familiar environment. Moreover, CA3 place cell ensembles replayed trajectories from a novel environment during NREM with higher fidelity than trajectories from a familiar environment. Together, these results suggest that CA3 representations of novel experiences are preferentially processed during subsequent sleep.

摘要

记忆巩固的一种流行模型假设,海马体中存储的最近记忆在睡眠期间被重新激活,从而转移到新皮层进行长期存储。这个过程被认为发生在非快速眼动睡眠(NREM)期间的尖波-涟漪(SWR)中。然而,海马体是否以相同的方式巩固所有最近的记忆尚不清楚。一个有效的记忆系统可能会从最近的经验中提取新的信息,以便进行优先巩固。在海马体中,记忆最初被认为存储在 CA3 中。因此,编码新体验的 CA3 位置细胞在随后的睡眠中 SWR 期间可能会被优先重新激活。为了验证这一假设,我们在大鼠暴露于熟悉和陌生环境以及随后的整夜睡眠期间记录了 CA3 位置细胞。我们发现,优先编码陌生环境的 CA3 位置细胞在 NREM 期间的 SWR 中比优先编码熟悉环境的位置细胞表现出更大的放电率增加。此外,CA3 位置细胞集合在 NREM 期间以比熟悉环境更高的保真度重放来自陌生环境的轨迹。这些结果表明,CA3 对新体验的表示在随后的睡眠中被优先处理。

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