细胞外片层和隧道调节海马神经突起中的谷氨酸扩散。

Extracellular sheets and tunnels modulate glutamate diffusion in hippocampal neuropil.

机构信息

Howard Hughes Medical Institute, Salk Institute for Biological Studies, La Jolla, California 92037, USA.

出版信息

J Comp Neurol. 2013 Feb 1;521(2):448-64. doi: 10.1002/cne.23181.

DOI:10.1002/cne.23181

PMID:22740128

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3540825/

Abstract

Although the extracellular space in the neuropil of the brain is an important channel for volume communication between cells and has other important functions, its morphology on the micron scale has not been analyzed quantitatively owing to experimental limitations. We used manual and computational techniques to reconstruct the 3D geometry of 180 μm(3) of rat CA1 hippocampal neuropil from serial electron microscopy and corrected for tissue shrinkage to reflect the in vivo state. The reconstruction revealed an interconnected network of 40-80 nm diameter tunnels, formed at the junction of three or more cellular processes, spanned by sheets between pairs of cell surfaces with 10-40 nm width. The tunnels tended to occur around synapses and axons, and the sheets were enriched around astrocytes. Monte Carlo simulations of diffusion within the reconstructed neuropil demonstrate that the rate of diffusion of neurotransmitter and other small molecules was slower in sheets than in tunnels. Thus, the non-uniformity found in the extracellular space may have specialized functions for signaling (sheets) and volume transmission (tunnels).

摘要

尽管神经突细胞外空间是细胞间容积通讯的重要通道，并且具有其他重要功能，但由于实验限制，其在微米尺度上的形态尚未得到定量分析。我们使用手动和计算技术，从连续电子显微镜重建了 180 μm(3)的大鼠 CA1 海马神经突的 3D 几何形状，并进行了组织收缩校正，以反映体内状态。重建结果揭示了一个相互连接的直径为 40-80nm 的隧道网络，这些隧道是在三个或更多细胞过程的连接处形成的，由细胞表面之间的薄片跨越，宽度为 10-40nm。这些隧道往往出现在突触和轴突周围，而薄片则在星形胶质细胞周围富集。在重建的神经突内进行的扩散蒙特卡罗模拟表明，神经递质和其他小分子的扩散速度在薄片中比在隧道中慢。因此，细胞外空间中的非均匀性可能具有信号转导（薄片）和容积传输（隧道）的专门功能。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a2fe/3540825/4a0b379c20dc/nihms427900f1.jpg

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