定量转运组学确定Kif5a为神经退行性变的主要调节因子。

Quantitative transportomics identifies Kif5a as a major regulator of neurodegeneration.

作者信息

Shah Sahil H, Schiapparelli Lucio M, Ma Yuanhui, Yokota Satoshi, Atkins Melissa, Xia Xin, Cameron Evan G, Huang Thanh, Saturday Sarah, Sun Catalina B, Knasel Cara, Blackshaw Seth, Yates John R, Cline Hollis T, Goldberg Jeffrey L

机构信息

Byers Eye Institute and Spencer Center for Vision Research, Stanford University, Palo Alto, United States.

Scripps Research, Neuroscience Department and the Dorris Neuroscience Center, La Jolla, United States.

出版信息

Elife. 2022 Mar 8;11:e68148. doi: 10.7554/eLife.68148.

DOI:10.7554/eLife.68148

PMID:35259089

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8947766/

Abstract

Many neurons in the adult central nervous system, including retinal ganglion cells (RGCs), degenerate and die after injury. Early axon protein and organelle trafficking failure is a key component in many neurodegenerative disorders yet changes to axoplasmic transport in disease models have not been quantified. We analyzed early changes in the protein 'transportome' from RGC somas to their axons after optic nerve injury and identified transport failure of an anterograde motor protein Kif5a early in RGC degeneration. We demonstrated that manipulating Kif5a expression affects anterograde mitochondrial trafficking in RGCs and characterized axon transport in Kif5a knockout mice to identify proteins whose axon localization was Kif5a-dependent. Finally, we found that knockout of Kif5a in RGCs resulted in progressive RGC degeneration in the absence of injury. Together with expression data localizing Kif5a to human RGCs, these data identify Kif5a transport failure as a cause of RGC neurodegeneration and point to a mechanism for future therapeutics.

摘要

包括视网膜神经节细胞（RGCs）在内的许多成体中枢神经系统神经元在损伤后会发生退化和死亡。早期轴突蛋白和细胞器运输功能障碍是许多神经退行性疾病的关键组成部分，但疾病模型中轴浆运输的变化尚未得到量化。我们分析了视神经损伤后从RGC胞体到其轴突的蛋白质“运输组”的早期变化，并确定了在RGC退化早期顺行运动蛋白Kif5a的运输功能障碍。我们证明，操纵Kif5a的表达会影响RGCs中顺行线粒体运输，并对Kif5a基因敲除小鼠的轴突运输进行了表征，以确定其轴突定位依赖于Kif5a的蛋白质。最后，我们发现RGCs中Kif5a基因敲除导致在无损伤情况下RGCs进行性退化。结合将Kif5a定位到人类RGCs的表达数据，这些数据确定Kif5a运输功能障碍是RGC神经退行性变的一个原因，并指出了未来治疗的一种机制。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/30b4/8947766/dd6af5b3023b/elife-68148-fig1.jpg

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定量转运组学确定Kif5a为神经退行性变的主要调节因子。

Quantitative transportomics identifies Kif5a as a major regulator of neurodegeneration.

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