果蝇CLIP-190和哺乳动物CLIP-170在神经系统中显示出微管正端结合减少。

Drosophila CLIP-190 and mammalian CLIP-170 display reduced microtubule plus end association in the nervous system.

作者信息

Beaven Robin, Dzhindzhev Nikola S, Qu Yue, Hahn Ines, Dajas-Bailador Federico, Ohkura Hiroyuki, Prokop Andreas

机构信息

Faculty of Life Sciences, The University of Manchester, Manchester M13 9PT, United Kingdom.

Wellcome Trust Centre for Cell Biology, Institute of Cell Biology, School of Biological Sciences, University of Edinburgh, Edinburgh EH9 3JR, United Kingdom.

出版信息

Mol Biol Cell. 2015 Apr 15;26(8):1491-508. doi: 10.1091/mbc.E14-06-1083. Epub 2015 Feb 18.

DOI:10.1091/mbc.E14-06-1083

PMID:25694447

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4395129/

Abstract

Axons act like cables, electrically wiring the nervous system. Polar bundles of microtubules (MTs) form their backbones and drive their growth. Plus end-tracking proteins (+TIPs) regulate MT growth dynamics and directionality at their plus ends. However, current knowledge about +TIP functions, mostly derived from work in vitro and in nonneuronal cells, may not necessarily apply to the very different context of axonal MTs. For example, the CLIP family of +TIPs are known MT polymerization promoters in nonneuronal cells. However, we show here that neither Drosophila CLIP-190 nor mammalian CLIP-170 is a prominent MT plus end tracker in neurons, which we propose is due to low plus end affinity of the CAP-Gly domain-containing N-terminus and intramolecular inhibition through the C-terminus. Instead, both CLIP-190 and CLIP-170 form F-actin-dependent patches in growth cones, mediated by binding of the coiled-coil domain to myosin-VI. Because our loss-of-function analyses in vivo and in culture failed to reveal axonal roles for CLIP-190, even in double-mutant combinations with four other +TIPs, we propose that CLIP-190 and -170 are not essential axon extension regulators. Our findings demonstrate that +TIP functions known from nonneuronal cells do not necessarily apply to the regulation of the very distinct MT networks in axons.

摘要

轴突的作用类似于电缆，为神经系统进行电布线。微管（MTs）的极性束构成其主干并驱动其生长。正端追踪蛋白（+TIPs）在微管的正端调节微管的生长动态和方向性。然而，目前关于+TIP功能的知识大多来自体外和非神经元细胞的研究，不一定适用于轴突微管这种截然不同的环境。例如，+TIPs的CLIP家族在非神经元细胞中是已知的微管聚合促进剂。然而，我们在此表明，果蝇的CLIP-190和哺乳动物的CLIP-170在神经元中都不是突出的微管正端追踪蛋白，我们认为这是由于含CAP-Gly结构域的N端对正端的亲和力较低以及通过C端的分子内抑制作用。相反，CLIP-190和CLIP-170在生长锥中形成依赖于F-肌动蛋白的斑块，这是由卷曲螺旋结构域与肌球蛋白-VI的结合介导的。因为我们在体内和体外的功能丧失分析未能揭示CLIP-190在轴突中的作用，即使是与其他四种+TIPs的双突变组合中也是如此，所以我们提出CLIP-190和-170不是轴突延伸的必需调节因子。我们的研究结果表明，从非神经元细胞中已知的+TIP功能不一定适用于轴突中非常独特的微管网络的调节。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0882/4395129/50593d704cf6/1491fig1.jpg

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果蝇CLIP-190和哺乳动物CLIP-170在神经系统中显示出微管正端结合减少。

Drosophila CLIP-190 and mammalian CLIP-170 display reduced microtubule plus end association in the nervous system.

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