驱动蛋白1A/UNC-104转运自噬相关蛋白9以调控突触处的神经发育和自噬。

KIF1A/UNC-104 Transports ATG-9 to Regulate Neurodevelopment and Autophagy at Synapses.

作者信息

Stavoe Andrea K H, Kargbo-Hill Sarah E, Hall David H, Colón-Ramos Daniel A

机构信息

Program in Cellular Neuroscience, Neurodegeneration and Repair, Departments of Cell Biology and Neuroscience, Yale University School of Medicine, 295 Congress Avenue, BCMM 436B, New Haven, CT 06536-0812, USA.

Center for C. elegans Anatomy, Albert Einstein College of Medicine, Bronx, NY 10461, USA.

出版信息

Dev Cell. 2016 Jul 25;38(2):171-85. doi: 10.1016/j.devcel.2016.06.012. Epub 2016 Jul 7.

DOI:10.1016/j.devcel.2016.06.012

PMID:27396362

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4961624/

Abstract

Autophagy is a cellular degradation process important for neuronal development and survival. Neurons are highly polarized cells in which autophagosome biogenesis is spatially compartmentalized. The mechanisms and physiological importance of this spatial compartmentalization of autophagy in the neuronal development of living animals are not well understood. Here we determine that, in Caenorhabditis elegans neurons, autophagosomes form near synapses and are required for neurodevelopment. We first determine, through unbiased genetic screens and systematic genetic analyses, that autophagy is required cell autonomously for presynaptic assembly and for axon outgrowth dynamics in specific neurons. We observe autophagosome biogenesis in the axon near synapses, and this localization depends on the synaptic vesicle kinesin, KIF1A/UNC-104. KIF1A/UNC-104 coordinates localized autophagosome formation by regulating the transport of the integral membrane autophagy protein, ATG-9. Our findings indicate that autophagy is spatially regulated in neurons through the transport of ATG-9 by KIF1A/UNC-104 to regulate neurodevelopment.

摘要

自噬是一种对神经元发育和存活至关重要的细胞降解过程。神经元是高度极化的细胞，其中自噬体的生物发生在空间上是分隔的。在活体动物的神经元发育过程中，这种自噬空间分隔的机制和生理重要性尚未得到充分理解。在这里，我们确定，在秀丽隐杆线虫神经元中，自噬体在突触附近形成，并且是神经发育所必需的。我们首先通过无偏见的遗传筛选和系统的遗传分析确定，自噬在特定神经元的突触前组装和轴突生长动力学中是细胞自主必需的。我们观察到突触附近轴突中自噬体的生物发生，并且这种定位依赖于突触小泡驱动蛋白KIF1A/UNC-104。KIF1A/UNC-104通过调节整合膜自噬蛋白ATG-9的运输来协调局部自噬体的形成。我们的研究结果表明，自噬在神经元中通过KIF1A/UNC-104对ATG-9的运输进行空间调节，以调控神经发育。

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