皮质-海马的GluN2B对于在触摸屏范式中高效的视觉空间辨别学习至关重要。

Cortico-hippocampal GluN2B is essential for efficient visual-spatial discrimination learning in a touchscreen paradigm.

作者信息

Kenton Johnny A, Castillo Rebecca, Holmes Andrew, Brigman Jonathan L

机构信息

Department of Neurosciences, University of New Mexico School of Medicine, Albuquerque, NM 87131, USA.

Laboratory of Behavioral and Genomic Neuroscience, National Institute on Alcohol Abuse and Alcoholism, Bethesda, MD, USA.

出版信息

Neurobiol Learn Mem. 2018 Dec;156:60-67. doi: 10.1016/j.nlm.2018.10.011. Epub 2018 Oct 27.

DOI:10.1016/j.nlm.2018.10.011

PMID:30394331

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6300131/

Abstract

Discrimination of similar spatial locations, an important feature of episodic memory, has traditionally been measured via delayed nonmatching-to-location tasks. Recently, we and others have demonstrated that touchscreen-based Trial Unique Nonmatching-to-Location (TUNL) tasks are sensitive to lesions of the dorsal hippocampus in the mouse. Previously we have shown that loss of the GluN2B subunit of the N-methyl-D-aspartate (NMDA) receptor in the dorsal CA1 and throughout the cortex impairs hippocampal-dependent water maze and fear conditioning paradigms. We investigated whether loss of GluN2B would alter performance of visual-spatial discrimination learning in a delay- or separation-dependent manner. GluN2B null mutants displayed initial impairments in accuracy on the easiest training variant of TUNL that were overcome with training. Loss of GluN2B also impaired performance on a problem series where delay and separation were systematically varied. We also observed a training-dependent effect on performance. Mutant mice that received extensive training performed similar to control mice when challenged on a variable delay and variable separation problem, while those that received minimal training were impaired across all delays and separations. Together, these data demonstrate that GluN2B in the dorsal CA1 and cortex are essential for efficient visual-spatial discrimination learning on the TUNL task. Further, training effects on performance in mutant mice suggest that alterations in synaptic plasticity after GluN2B loss may underlie intra- versus inter-session learning.

摘要

对相似空间位置的辨别是情景记忆的一个重要特征，传统上是通过延迟位置非匹配任务来测量的。最近，我们和其他人已经证明，基于触摸屏的试验独特位置非匹配（TUNL）任务对小鼠背侧海马体的损伤很敏感。此前我们已经表明，背侧CA1区和整个皮层中N-甲基-D-天冬氨酸（NMDA）受体的GluN2B亚基缺失会损害海马体依赖的水迷宫和恐惧条件反射范式。我们研究了GluN2B的缺失是否会以依赖延迟或间隔的方式改变视觉空间辨别学习的表现。GluN2B基因敲除突变体在TUNL最简单训练变体的准确性上最初表现出损伤，但通过训练得以克服。GluN2B的缺失也损害了在一个延迟和间隔系统变化的问题系列中的表现。我们还观察到了对表现的训练依赖性效应。接受广泛训练的突变小鼠在可变延迟和可变间隔问题上接受挑战时，表现与对照小鼠相似，而接受最少训练的小鼠在所有延迟和间隔条件下均受损。总之，这些数据表明，背侧CA1区和皮层中的GluN2B对于TUNL任务中高效的视觉空间辨别学习至关重要。此外，对突变小鼠表现的训练效应表明，GluN2B缺失后突触可塑性的改变可能是会话内学习与会话间学习差异的基础。

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