Ngfr+ cholinergic projection from SI/nBM to mPFC selectively regulates temporal order recognition memory

基底核 神经科学 胆碱能的 乙酰胆碱 胆碱能神经元 无名质 前额叶皮质 加巴能 胆碱能纤维 光遗传学 生物 内分泌学 抑制性突触后电位 认知
作者
Fan Mei,Chen Zhao,Shangjin Li,Zeping Xue,Yueyang Zhao,Yihua Xu,Rongrong Ye,He You,Peng Yu,Xinyu Han,Gregory V. Carr,Daniel R. Weinberger,Feng Yang,Bai Lu
出处
期刊:Nature Communications [Nature Portfolio]
卷期号:15 (1) 被引量:1
标识
DOI:10.1038/s41467-024-51707-w
摘要

Acetylcholine regulates various cognitive functions through broad cholinergic innervation. However, specific cholinergic subpopulations, circuits and molecular mechanisms underlying recognition memory remain largely unknown. Here we show that Ngfr+ cholinergic neurons in the substantia innominate (SI)/nucleus basalis of Meynert (nBM)-medial prefrontal cortex (mPFC) circuit selectively underlies recency judgements. Loss of nerve growth factor receptor (Ngfr−/− mice) reduced the excitability of cholinergic neurons in the SI/nBM-mPFC circuit but not in the medial septum (MS)-hippocampus pathway, and impaired temporal order memory but not novel object and object location recognition. Expression of Ngfr in Ngfr−/− SI/nBM restored defected temporal order memory. Fiber photometry revealed that acetylcholine release in mPFC not only predicted object encounters but also mediated recency judgments of objects, and such acetylcholine release was absent in Ngfr−/− mPFC. Chemogenetic and optogenetic inhibition of SI/nBM projection to mPFC in ChAT-Cre mice diminished mPFC acetylcholine release and deteriorated temporal order recognition. Impaired cholinergic activity led to a depolarizing shift of GABAergic inputs to mPFC pyramidal neurons, due to disturbed KCC2-mediated chloride gradients. Finally, potentiation of acetylcholine signaling upregulated KCC2 levels, restored GABAergic driving force and rescued temporal order recognition deficits in Ngfr−/− mice. Thus, NGFR-dependent SI/nBM-mPFC cholinergic circuit underlies temporal order recognition memory. Functional roles of the diverse cholinergic subpopulations such as those in the substantia innominate (SI) and the nucleus basalis of Meynert (nBM) are not fully understood. Here the authors show that Ngfr+ cholinergic neurons in the SI/nBM-mPFC circuit selectively regulates recency judgement in recognition memory.
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