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低频海马-皮层活动驱动全脑静息状态功能磁共振连接。

Low-frequency hippocampal-cortical activity drives brain-wide resting-state functional MRI connectivity.

机构信息

Laboratory of Biomedical Imaging and Signal Processing, The University of Hong Kong, Pokfulam, Hong Kong SAR, China.

Department of Electrical and Electronic Engineering, The University of Hong Kong, Pokfulam, Hong Kong SAR, China.

出版信息

Proc Natl Acad Sci U S A. 2017 Aug 15;114(33):E6972-E6981. doi: 10.1073/pnas.1703309114. Epub 2017 Jul 31.

DOI:10.1073/pnas.1703309114
PMID:28760982
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5565425/
Abstract

The hippocampus, including the dorsal dentate gyrus (dDG), and cortex engage in bidirectional communication. We propose that low-frequency activity in hippocampal-cortical pathways contributes to brain-wide resting-state connectivity to integrate sensory information. Using optogenetic stimulation and brain-wide fMRI and resting-state fMRI (rsfMRI), we determined the large-scale effects of spatiotemporal-specific downstream propagation of hippocampal activity. Low-frequency (1 Hz), but not high-frequency (40 Hz), stimulation of dDG excitatory neurons evoked robust cortical and subcortical brain-wide fMRI responses. More importantly, it enhanced interhemispheric rsfMRI connectivity in various cortices and hippocampus. Subsequent local field potential recordings revealed an increase in slow oscillations in dorsal hippocampus and visual cortex, interhemispheric visual cortical connectivity, and hippocampal-cortical connectivity. Meanwhile, pharmacological inactivation of dDG neurons decreased interhemispheric rsfMRI connectivity. Functionally, visually evoked fMRI responses in visual regions also increased during and after low-frequency dDG stimulation. Together, our results indicate that low-frequency activity robustly propagates in the dorsal hippocampal-cortical pathway, drives interhemispheric cortical rsfMRI connectivity, and mediates visual processing.

摘要

海马体(包括背侧齿状回[dDG])和皮层之间存在双向通讯。我们提出,海马体-皮层通路中的低频活动有助于大脑静息状态连接,以整合感觉信息。我们使用光遗传学刺激和全脑功能磁共振成像(fMRI)和静息态 fMRI(rsfMRI),确定了海马体活动时空特异性下游传播的大规模影响。低频(1 Hz)而非高频(40 Hz)刺激 dDG 兴奋性神经元会引起皮质和皮质下全脑 fMRI 反应的强烈激活。更重要的是,它增强了各种皮质和海马体之间的大脑半球间 rsfMRI 连接。随后的局部场电位记录显示,背侧海马体和视觉皮层中的慢波振荡增加,大脑半球间视觉皮层连接和海马体-皮层连接增加。同时,dDG 神经元的药理学失活降低了大脑半球间 rsfMRI 连接。功能上,视觉刺激期间和之后,视觉区域的 fMRI 反应也增加。综上所述,我们的研究结果表明,低频活动在背侧海马体-皮层通路上强烈传播,驱动大脑半球间皮质 rsfMRI 连接,并介导视觉处理。

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