罕见和空间分离的释放位点介导两个已确定的网络神经元之间的突触相互作用。

Marie-Jeanne Cabirol-Pol, D. Combes, V. Fénelon, J. Simmers, P. Meyrand
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引用次数: 10

摘要

采用激光扫描共聚焦显微镜(LSCM)、电子显微镜(EM)和细胞电生理学相结合的方法研究了同一网络中两个已鉴定的神经元之间抑制性突触的结构基础。为了实现这一点,我们检查了属于龙虾(Homarus gammarus)幽门网络的已识别神经元之间的化学抑制突触:幽门扩张(PD)和幽门外侧(LP)神经元。为了同时观察这两个神经元,我们在一个神经元中注射了路西法黄(LY),在另一个神经元中注射了罗丹明/辣根过氧化物酶(HRP)。在LSCM下,我们发现在两个网络神经元的神经鞘树的有限部分中只有两个紧密相关的区域。然后,在这两个区域内,使用EM搜索突触释放位点。为此,在之前观察到的制剂上进行LY与免疫金的光转化和HRP与DAB的发育。每个区域只发现了一个释放点的结构证据。为了证实这一结果,并且由于接触区总是在树突的受限部分分离,我们使用激光光消融选择性地删除突触前或突触后释放位点所在的分支。在这两种情况下,这种限制性消融完全消除了这些神经元之间的功能相互作用。因此,我们的研究结果表明,对神经网络的运作至关重要的抑制性突触仅依赖于位于每个神经元树突乔木高度受限部分的极少数接触位点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Rare and spatially segregated release sites mediate a synaptic interaction between two identified network neurons.
Laser-scanning confocal microscopy (LSCM), electron microcopy (EM), and cellular electrophysiology were used in combination to study the structural basis of an inhibitory synapse between two identified neurons of the same network. To achieve this, we examined the chemical inhibitory synapse between identified neurons belonging to the lobster (Homarus gammarus) pyloric network: the pyloric dilator (PD) and the lateral pyloric (LP) neurons. In order to visualize simultaneously these two neurons, we used intrasomatic injection of Lucifer Yellow (LY) in one and rhodamine/horseradish peroxydase (HRP) in the other. Under LSCM, we found only two zones of close apposition in a restricted part of the neuritic tree of the two network neurons. Then, within these two zones, the synaptic release sites were searched using EM. To this end, photoconversion of LY with immunogold and development of HRP with DAB were performed on the previously observed preparations. Structural evidence was found for only one release site per zone. To confirm this result, and because the zones of contact were always segregated in a restricted part of the dendrites, we used laser photoablation to selectively delete, either pre- or postsynaptically, the branches on which the release sites were located. In both cases, such restrictive ablation completely abolished the functional interaction between these neurons. Our results therefore demonstrate that an inhibitory synapse that is essential for the operation of a neural network relies on only very few sites of contact localized in a highly restricted part of each neuron's dendritic arbor.
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