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内侧隔核在大鼠空间和非空间记忆形式中的作用。

A role for medial entorhinal cortex in spatial and nonspatial forms of memory in rats.

机构信息

Department of Psychological Sciences, University of San Diego, San Diego, CA, 92110, USA.

Marquette University School of Dentistry, Milwaukee, WI, 53233, USA.

出版信息

Behav Brain Res. 2021 Jun 11;407:113259. doi: 10.1016/j.bbr.2021.113259. Epub 2021 Mar 26.

DOI:10.1016/j.bbr.2021.113259
PMID:33775779
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8143915/
Abstract

Many studies have focused on the role of the medial entorhinal cortex (MEC) in spatial memory and spatial processing. However, more recently, studies have suggested that the functions of the MEC may extend beyond the spatial domain and into the temporal aspects of memory processing. The current study examined the effect of MEC lesions on spatial and nonspatial tasks that require rats to learn and remember information about location or stimulus-stimulus associations across short temporal gaps. MEC- and sham-lesioned male rats were tested on a watermaze delayed match to position (DMP) task and trace fear conditioning (TFC). Rats with MEC lesions were impaired at remembering the platform location after both the shortest (1 min) and the longest (6 h) delays on the DMP task, never performing as precisely as sham rats under the easiest condition and performing poorly at the longest delay. On the TFC task, although MEC-lesioned rats were not impaired at remembering the conditioning context, they showed reduced freezing in response to the previously associated tone. These findings suggest that the MEC plays a role in bridging temporal delays during learning and memory that extend beyond its established role in spatial memory processing.

摘要

许多研究都集中在内侧内嗅皮层(MEC)在空间记忆和空间处理中的作用。然而,最近的研究表明,MEC 的功能可能不仅限于空间领域,还涉及到记忆处理的时间方面。本研究考察了 MEC 损伤对空间和非空间任务的影响,这些任务要求大鼠学习和记住有关位置或刺激-刺激关联的信息,跨越短时间间隔。MEC 损伤和假手术损伤的雄性大鼠在水迷宫延迟匹配位置(DMP)任务和痕迹恐惧条件反射(TFC)中接受测试。在 DMP 任务中,MEC 损伤大鼠在最短(1 分钟)和最长(6 小时)延迟后都无法记住平台位置,在最简单的条件下,它们的表现从未像假手术大鼠那样精确,在最长的延迟下表现也很差。在 TFC 任务中,尽管 MEC 损伤大鼠在记住条件化环境方面没有受损,但它们对先前相关的音调的反应性冻结减少。这些发现表明,MEC 在学习和记忆过程中跨越时间延迟发挥作用,这超出了其在空间记忆处理中的既定作用。

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