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大鼠海马切片中的高频振荡:起源、频率特征及传播

High Frequency Oscillations in Rat Hippocampal Slices: Origin, Frequency Characteristics, and Spread.

作者信息

Naggar Isaac, Stewart Mark, Orman Rena

机构信息

EEG Section, NINDS, National Institutes of Health, Bethesda, MD, United States.

Department of Neurology, State University of New York Downstate Medical Center, Brooklyn, NY, United States.

出版信息

Front Neurol. 2020 Apr 22;11:326. doi: 10.3389/fneur.2020.00326. eCollection 2020.

DOI:10.3389/fneur.2020.00326
PMID:32390935
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7188778/
Abstract

Field potential oscillations reflect repetitive firing and synaptic activity by ensembles of neurons in certain areas of the brain. They can be distinguished as slow (e.g., alpha, delta, and theta), fast (e.g., beta and gamma), and high frequency oscillations (HFOs). Neuronal oscillations are involved in a variety of physiological and pathophysiological states such as cognition, consciousness, and seizures. The laminar structure of rat hippocampus affords a way to study these oscillations in hippocampal slices. Rat ventral hippocampal brain slices were cut and maintained in a recording chamber that permitted 64 simultaneous extracellular recordings in the presence of artificial CSF. Brief single stimulus pulses were applied with bipolar electrodes to the CA3 or CA1 regions of hippocampus. Single pulses triggered epileptiform population events that included HFOs in the 150-250 Hz range in the presence of GABA receptor blockade or kainic acid. HFOs also occurred spontaneously in the presence of kainic acid. The oscillations had the largest amplitude in the CA3c cell layer, regardless of the drug, and were synchronized throughout the cell layer. AMPA receptor blockade stopped these HFOs, whereas NMDA receptor blockade did not. Gap junction activation did not restore HFOs in the presence of AMPA receptor blockade. Our findings suggest that a population of excitatory neurons in CA3c may be a primary focus of seizure-like activity in Ammon's Horn. We suggest that the interconnection of CA3c is different from the rest of CA3.

摘要

场电位振荡反映了大脑特定区域神经元群体的重复放电和突触活动。它们可分为慢振荡(如α、δ和θ振荡)、快振荡(如β和γ振荡)以及高频振荡(HFOs)。神经元振荡参与多种生理和病理生理状态,如认知、意识和癫痫发作。大鼠海马的层状结构为研究海马切片中的这些振荡提供了一种方法。将大鼠腹侧海马脑片切开并置于记录室中,在人工脑脊液存在的情况下可同时进行64个细胞外记录。用双极电极向海马的CA3或CA1区域施加短暂的单个刺激脉冲。在存在GABA受体阻断剂或 kainic 酸的情况下,单个脉冲触发了包括150 - 250Hz范围内HFOs的癫痫样群体事件。在存在kainic 酸的情况下,HFOs也自发出现。无论使用何种药物,振荡在CA3c细胞层中的振幅最大,并且在整个细胞层中是同步的。AMPA受体阻断可阻止这些HFOs,而NMDA受体阻断则不能。在存在AMPA受体阻断的情况下,缝隙连接激活不能恢复HFOs。我们的研究结果表明,CA3c中的一群兴奋性神经元可能是海马角癫痫样活动的主要焦点。我们认为,CA3c的互连与CA3的其他部分不同。

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