神经科学
生物
解剖
计算机科学
海马体
中枢神经系统
神经元
神经网络
进化生物学
细胞生物学
作者
Yawen Zheng,Jifu Tong,Yuanwei Xing,Shan Shao,Naizheng Liu,Shuting Liu,Jiao Wu,Wang Yin,Jiaxin Wang,Shulu Yuan,Kun Cui,Xuetao Qi,Shuang Cui,You Wan,Ming Yi
标识
DOI:10.1038/s41467-026-70268-8
摘要
GABAergic medial septal neurons play a key role in regulating hippocampus-dependent spatial memory, but the underlying mechanisms are not yet fully understood. In male mice, we establish an object-place recognition impairment model using an acute sleep deprivation protocol. Here we show that parvalbumin-positive neurons in the medial septum regulate object-location memory specificity during encoding by modulating hippocampal place cell population activity. Using in vivo electrophysiology combined with optogenetics, we characterize the role of medial septal parvalbumin-positive neurons in object-place recognition during memory encoding. Preference for objects relocated to novel positions parallels directional shifts in place fields of remapping neuronal populations, as well as decreased co-activity among place cells in dorsal CA1 during the encoding phase. Activating medial septal parvalbumin-positive neurons during memory encoding rescues object-place recognition impairments. These findings suggest that parvalbumin-positive neurons in the medial septum play a causal role in object-place recognition memory.
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