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海马-内侧前额叶皮质通路中电化学胆碱能信号的改变伴随着突触可塑性和 γ 振荡。

Alterations in amperometric cholinergic signals accompanied by synaptic plasticity and γ oscillations in the hippocampus-medial prefrontal cortex pathway.

机构信息

School of Medical Instrument and Food Engineering, University of Shanghai for Science and Technology, Shanghai, China.

出版信息

Neuroreport. 2021 Dec 15;32(18):1428-1435. doi: 10.1097/WNR.0000000000001746.

DOI:10.1097/WNR.0000000000001746
PMID:34776505
Abstract

OBJECTIVE

Neural projections from the ventral hippocampal CA1 (vCA1) to the medial prefrontal cortex (mPFC) and from the posterior dorsal hippocampal CA1 (pdCA1) to the mPFC are important for information processing. Previous studies have revealed that two forms of long-term synaptic plasticity, long-term potentiation (LTP) and long-term depression (LTD), and γ oscillations, which are all believed to be neural bases for learning and memory in the vCA1-mPFC and the pdCA1-mPFC pathways, exhibited distinct profiles. However, the underlying mechanism is unclear.

METHODS

In the present study, amperometric cholinergic signals were monitored during in-vivo electrophysiological recordings of evoked extracellular postsynaptic potentials and spontaneous local field potentials.

RESULTS

The results demonstrated that in the vCA1-mPFC pathway, increased cholinergic currents and γ power of the amperometric cholinergic signals were accompanied by the induction of LTD and increased γ power of local field potentials, whereas, in the pdCA1-mPFC pathway, decreased cholinergic currents and increased γ power of the amperometric cholinergic signals were accompanied by the induction of LTP and increased γ power of local field potentials.

CONCLUSION

These findings indicated that some correlations may exist between amperometric cholinergic signals and synaptic plasticity in the hippocampus-mPFC pathway. The pattern of alterations in cholinergic signals may help to illustrate the specific properties of synaptic plasticity and γ oscillations in the vCA1-mPFC and the pdCA1-mPFC pathways.

摘要

目的

腹侧海马 CA1(vCA1)至内侧前额叶皮层(mPFC)和背侧后海马 CA1(pdCA1)至 mPFC 的神经投射对于信息处理很重要。先前的研究表明,两种形式的长时程突触可塑性,长时程增强(LTP)和长时程抑制(LTD)以及γ振荡,它们都被认为是 vCA1-mPFC 和 pdCA1-mPFC 通路中学习和记忆的神经基础,表现出不同的特征。然而,其潜在机制尚不清楚。

方法

在本研究中,通过在体电生理记录诱发的细胞外突触后电位和自发局部场电位,监测电化学胆碱能信号。

结果

结果表明,在 vCA1-mPFC 通路中,增加的胆碱能电流和电化学胆碱能信号的γ功率伴随着 LTD 的诱导和局部场电位γ功率的增加,而在 pdCA1-mPFC 通路中,减少的胆碱能电流和电化学胆碱能信号的γ功率伴随着 LTP 的诱导和局部场电位γ功率的增加。

结论

这些发现表明,在海马体-mPFC 通路中,电化学胆碱能信号和突触可塑性之间可能存在一些相关性。胆碱能信号变化的模式可能有助于说明 vCA1-mPFC 和 pdCA1-mPFC 通路中突触可塑性和γ振荡的特定性质。

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