Targeting a vulnerable septum-hippocampus cholinergic circuit in a critical time window ameliorates tau-impaired memory consolidation

神经科学 海马体 胆碱能的 记忆巩固 神经学 医学 胆碱能神经元 心理学
作者
Dongqin Wu,Nana Yu,Yang Gao,Rui Xiong,Luping Liu,Huiyang Lei,Sen Jin,Jiale Liu,Yingzhou Liu,Jia‐Zhao Xie,Enjie Liu,Qiuzhi Zhou,Yanchao Liu,Shihong Li,Linyu Wei,Jingru Lv,Huilin Yu,Wen‐Bo Zeng,Qiang Zhou,Fuqiang Xu,Min‐Hua Luo,Yao Zhang,Ying Yang,Jian‐Zhi Wang
出处
期刊:Molecular Neurodegeneration [Springer Nature]
卷期号:18 (1) 被引量:1
标识
DOI:10.1186/s13024-023-00614-7
摘要

Abstract Background Abnormal tau accumulation and cholinergic degeneration are hallmark pathologies in the brains of patients with Alzheimer’s disease (AD). However, the sensitivity of cholinergic neurons to AD-like tau accumulation and strategies to ameliorate tau-disrupted spatial memory in terms of neural circuits still remain elusive. Methods To investigate the effect and mechanism of the cholinergic circuit in Alzheimer's disease-related hippocampal memory, overexpression of human wild-type Tau (hTau) in medial septum (MS)-hippocampus (HP) cholinergic was achieved by specifically injecting pAAV-EF1α-DIO-hTau-eGFP virus into the MS of ChAT-Cre mice. Immunostaining, behavioral analysis and optogenetic activation experiments were used to detect the effect of hTau accumulation on cholinergic neurons and the MS-CA1 cholinergic circuit. Patch-clamp recordings and in vivo local field potential recordings were used to analyze the influence of hTau on the electrical signals of cholinergic neurons and the activity of cholinergic neural circuit networks. Optogenetic activation combined with cholinergic receptor blocker was used to detect the role of cholinergic receptors in spatial memory. Results In the present study, we found that cholinergic neurons with an asymmetric discharge characteristic in the MS-hippocampal CA1 pathway are vulnerable to tau accumulation. In addition to an inhibitory effect on neuronal excitability, theta synchronization between the MS and CA1 subsets was significantly disrupted during memory consolidation after overexpressing hTau in the MS. Photoactivating MS-CA1 cholinergic inputs within a critical 3 h time window during memory consolidation efficiently improved tau-induced spatial memory deficits in a theta rhythm-dependent manner. Conclusions Our study not only reveals the vulnerability of a novel MS-CA1 cholinergic circuit to AD-like tau accumulation but also provides a rhythm- and time window-dependent strategy to target the MS-CA1 cholinergic circuit, thereby rescuing tau-induced spatial cognitive functions. Graphical Abstract
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