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缝隙连接介导的新皮层传播活动及其受细胞外钾离子的调制。

Propagating Activity in Neocortex, Mediated by Gap Junctions and Modulated by Extracellular Potassium.

机构信息

Institute of Neuroscience, Newcastle University Medical School, Newcastle upon Tyne NE2 4HH, United Kingdom.

Institute of Neuroscience, Newcastle University Medical School, Newcastle upon Tyne NE2 4HH, United Kingdom

出版信息

eNeuro. 2020 Mar 25;7(2). doi: 10.1523/ENEURO.0387-19.2020. Print 2020 Mar/Apr.

DOI:10.1523/ENEURO.0387-19.2020
PMID:32098762
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7096537/
Abstract

Parvalbumin-expressing interneurons in cortical networks are coupled by gap junctions, forming a syncytium that supports propagating epileptiform discharges, induced by 4-aminopyridine. It remains unclear, however, whether these propagating events occur under more natural states, without pharmacological blockade. In particular, we investigated whether propagation also happens when extracellular K rises, as is known to occur following intense network activity, such as during seizures. We examined how increasing [K] affects the likelihood of propagating activity away from a site of focal (200-400 μm) optogenetic activation of parvalbumin-expressing interneurons. Activity was recorded using a linear 16-electrode array placed along layer V of primary visual cortex. At baseline levels of [K] (3.5 mm), induced activity was recorded only within the illuminated area. However, when [K] was increased above a threshold level (50th percentile = 8.0 mm; interquartile range = 7.5-9.5 mm), time-locked, fast-spiking unit activity, indicative of parvalbumin-expressing interneuron firing, was also recorded outside the illuminated area, propagating at 59.1 mm/s. The propagating unit activity was unaffected by blockade of GABAergic synaptic transmission, but it was modulated by glutamatergic blockers, and was reduced, and in most cases prevented altogether, by pharmacological blockade of gap junctions, achieved by any of the following three different drugs: quinine, mefloquine, or carbenoxolone. Washout of quinine rapidly re-established the pattern of propagating activity. Computer simulations show qualitative differences between propagating discharges in high [K] and 4-aminopyridine, arising from differences in the electrotonic effects of these two manipulations. These interneuronal syncytial interactions are likely to affect the complex electrographic dynamics of seizures, once [K] is raised above this threshold level.

摘要

在皮质网络中,表达 parvalbumin 的中间神经元通过缝隙连接耦合,形成一个合胞体,支持由 4-氨基吡啶诱导的传播性癫痫样放电。然而,目前尚不清楚这些传播事件是否发生在更自然的状态下,而没有药物阻断。特别是,我们研究了在细胞外 K 升高时,是否也会发生传播事件,因为已知在强烈的网络活动(如癫痫发作期间)后会发生这种情况。我们检查了增加 [K] 如何影响远离焦点部位(200-400μm)光遗传学激活表达 parvalbumin 的中间神经元的传播活动的可能性。使用放置在初级视觉皮层 V 层的线性 16 电极阵列记录活动。在 [K](3.5mm)的基础水平下,仅在照射区域内记录到诱导的活动。然而,当 [K] 升高到阈值水平以上(第 50 百分位数=8.0mm;四分位距=7.5-9.5mm)时,也在照射区域外记录到与时间锁定、快速尖峰单元活动相关的活动,表明表达 parvalbumin 的中间神经元放电,以 59.1mm/s 的速度传播。传播单元活动不受 GABA 能突触传递阻断的影响,但被谷氨酸能阻断剂调制,并且通过缝隙连接的药理学阻断(通过以下三种不同药物中的任何一种实现),该阻断剂被降低,并且在大多数情况下完全被阻止:奎宁、甲氟喹或 carbenoxolone。奎宁的冲洗迅速重建了传播活动的模式。计算机模拟显示,在高 [K] 和 4-氨基吡啶中传播放电之间存在定性差异,这是由于这两种操作的电紧张影响的差异所致。一旦 [K] 升高到这个阈值以上,这些中间神经元的合胞体相互作用很可能会影响癫痫的复杂电图动力学。

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