Is the Papez circuit the location of the elusive episodic memory engram?

IF 2 Q3 NEUROSCIENCES
Steven Hall PhD, MSc
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Abstract

All of the brain structures and white matter that make up Papez’ circuit, as well as the circuit as a whole, are implicated in the literature in episodic memory formation and recall. This paper shows that Papez’ circuit has the detailed structure and connectivity that is evidently required to support the episodic memory engram, and that identifying Papez’ circuit as the location of the engram answers a number of long-standing questions regarding the role of medial temporal lobe structures in episodic memory. The paper then shows that the process by which the episodic memory engram may be formed is a network-wide Hebbian potentiation termed “racetrack potentiation”, whose frequency corresponds to that observed in vivo in humans for memory functions. Further, by considering the microcircuits observed in the medial temporal lobe structures forming Papez’ circuit, the paper establishes the neural mechanisms behind the required functions of sensory information storage and recall, pattern completion, pattern separation, and memory consolidation. The paper shows that Papez’ circuit has the necessary connectivity to gather the various elements of an episodic memory occurring within Pöppel’s experienced time or “quantum of experience”. Finally, the paper shows how the memory engram located in Papez’ circuit might be central to the formation of a duplicate engram in the cortex enabling consolidation and long-term storage of episodic memories.

帕佩兹回路是难以捉摸的外显记忆刻痕的位置吗?
构成帕佩兹回路的所有大脑结构和白质以及整个回路都与外显记忆的形成和回忆有关。本文表明,Papez 回路具有支持外显记忆片段所需的详细结构和连通性,而且确定 Papez 回路为片段所在位置回答了有关内侧颞叶结构在外显记忆中的作用的一系列长期存在的问题。论文随后指出,外显记忆片段的形成过程可能是一种被称为 "赛道电位 "的全网络海比电位,其频率与在人类体内观察到的记忆功能频率一致。此外,通过研究在构成 Papez 回路的内侧颞叶结构中观察到的微电路,论文确立了感觉信息存储和回忆、模式完成、模式分离和记忆巩固等必要功能背后的神经机制。论文表明,Papez 回路具有必要的连通性,可将发生在 Pöppel 经验时间或 "经验量子 "内的外显记忆的各种元素聚集在一起。最后,论文还展示了位于 Papez 回路中的记忆片段是如何在大脑皮层中形成重复记忆片段,从而巩固和长期储存外显记忆的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
IBRO Neuroscience Reports
IBRO Neuroscience Reports Neuroscience-Neuroscience (all)
CiteScore
2.80
自引率
0.00%
发文量
99
审稿时长
14 weeks
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