葡萄糖饥饿时PAQR3对ATG14连接的III类磷脂酰肌醇3激酶激活的双层调控。

Two-layer regulation of PAQR3 on ATG14-linked class III PtdIns3K activation upon glucose starvation.

作者信息

Xu Daqian, Wang Zheng, Chen Yan

机构信息

a Key Laboratory of Nutrition and Metabolism, Institute for Nutritional Sciences, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences, University of Chinese Academy of Sciences , Shanghai , China.

出版信息

Autophagy. 2016 Jun 2;12(6):1047-8. doi: 10.1080/15548627.2016.1163459. Epub 2016 Apr 28.

DOI:10.1080/15548627.2016.1163459

PMID:27124708

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4922432/

Abstract

As a central node of the macroautophagy/autophagy process, the BECN1/Beclin1-PIK3C3/VPS34 complex participates in different steps of autophagy by interacting with multiple molecules. The ATG14-associated PIK3C3 complex is involved in autophagy initiation, whereas the UVRAG-associated complex mainly modulates autophagosome maturation and endosome fusion. However, the molecular mechanism that coordinates the sequential execution of the autophagy program remains unknown. We have recently discovered that a Golgi-resident protein, PAQR3, regulates autophagy initiation as it preferentially facilitates the formation of the ATG14-linked PIK3C3 complex instead of the UVRAG-associated complex. Upon glucose starvation, AMPK directly phosphorylates T32 of PAQR3, which is crucial for the activation of the ATG14-associated class III PtdIns3K. Furthermore, Paqr3-deleted mice have a deficiency in exercise-induced autophagy as well as behavioral disorders. Thus, this work not only uncovers the regulatory mechanism of PAQR3 on autophagy initiation, but also provides a potential candidate therapeutic target for neurodegenerative diseases.

摘要

作为巨自噬/自噬过程的核心节点，BECN1/Beclin1-PIK3C3/VPS34复合物通过与多种分子相互作用参与自噬的不同步骤。与ATG14相关的PIK3C3复合物参与自噬起始，而与UVRAG相关的复合物主要调节自噬体成熟和内体融合。然而，协调自噬程序顺序执行的分子机制仍然未知。我们最近发现，一种高尔基体驻留蛋白PAQR3调节自噬起始，因为它优先促进与ATG14相连的PIK3C3复合物的形成，而不是与UVRAG相关的复合物。在葡萄糖饥饿时，AMPK直接磷酸化PAQR3的T32，这对激活与ATG14相关的III类磷脂酰肌醇3激酶至关重要。此外，缺失Paqr3的小鼠在运动诱导的自噬以及行为障碍方面存在缺陷。因此，这项工作不仅揭示了PAQR3对自噬起始的调控机制，还为神经退行性疾病提供了一个潜在的候选治疗靶点。

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