细胞间纳米管:穿越多种类型的突触。
Cell-cell nanotubes: Tunneling through several types of synapses.
作者信息
Tarakanov Alexander O, Goncharova Larisa B
机构信息
St. Petersburg Institute for Informatics and Automation; Russian Academy of Sciences; St. Petersburg, Russia.
出版信息
Commun Integr Biol. 2009 Jul;2(4):359-61. doi: 10.4161/cib.2.4.8289.
Abstract
Nanotube can be generally seen as a nanoscale cylindrical structure. Membrane (or tunneling) nanotube (TNT) is a cytoplasmic tunnel between two cells. Such direct cell-cell channel is used for a physical transport of biochemical cargo, whereas nanotubular networks between cells may be a novel principle of communicative and integrative biology. Recently, TNTs and their networks were discovered in plant cells and then they were reported also in animal cells. Just the reverse, a notion of plant synapse has been also proposed only recently, long after the corresponding notion of neuronal synapse in animals. However, both TNTs and synapses seem to be closely related and evolutionary conserved structures through different types of cells. Accordingly, this mini-review aims to demonstrate that TNTs may represent one of the deep functional similarities between neuronal, immune, viral and plant synapses.
摘要
纳米管通常可被视为一种纳米级的圆柱形结构。膜(或隧道)纳米管(TNT)是两个细胞之间的细胞质通道。这种直接的细胞间通道用于生物化学物质的物理运输,而细胞间的纳米管网络可能是通讯和整合生物学的一个新原理。最近,在植物细胞中发现了TNTs及其网络,随后在动物细胞中也有相关报道。反之,植物突触的概念也是直到最近才被提出,这距离动物神经元突触的相应概念提出已经过去了很长时间。然而,TNTs和突触似乎都是通过不同类型的细胞紧密相关且在进化上保守的结构。因此,这篇小型综述旨在证明TNTs可能代表了神经元、免疫、病毒和植物突触之间深层次的功能相似性之一。
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