Atg1在酿酒酵母自噬特异性吞噬泡前体组装调控中的双重作用。

Dual role of Atg1 in regulation of autophagy-specific PAS assembly in Saccharomyces cerevisiae.

作者信息

Cheong Hessun, Klionsky Daniel J

机构信息

Life Sciences Institute, Department of Molecular, Cellular and Developmental Biology, University of Michigan, Ann Arbor, Michigan 48109-2216, USA.

出版信息

Autophagy. 2008 Jul;4(5):724-6. doi: 10.4161/auto.6375. Epub 2008 Jun 2.

DOI:10.4161/auto.6375

PMID:18552550

Abstract

Most autophagy-related (Atg) proteins are assembled at the phagophore assembly site or pre-autophagosomal structure (PAS), which is a potential site for vesicle formation during vegetative or starvation conditions. To understand the initial step of vesicle formation, it is important to know how Atg proteins are recruited to the PAS. Atg11 facilitates PAS assembly for the cytoplasm to vacuole targeting (Cvt) pathway in vegetative conditions. To examine autophagy-specific PAS formation, an ATG11 deletion mutant was used to eliminate the PAS formation that occurs in vegetative conditions. We found that Atg1, Atg13 and Atg17 play a similar role for PAS formation under autophagy-inducing conditions as seen for Atg11 during vegetative growth. In particular, Atg1 is proposed to have dual roles for autophagy-specific PAS recruitment. Atg1 plays a structural role for efficient recruitment of Atg proteins to the PAS, which is mediated by interaction with Atg13 and Atg17. In contrast, Atg1 kinase activity is needed for dissociation of Atg proteins from the PAS during autophagy inducing conditions, a function which is also critical for autophagy activity.

摘要

大多数自噬相关（Atg）蛋白在吞噬泡组装位点或自噬前体结构（PAS）处组装，PAS是营养生长或饥饿条件下囊泡形成的潜在位点。为了解囊泡形成的起始步骤，了解Atg蛋白如何被招募到PAS很重要。在营养生长条件下，Atg11促进细胞质到液泡靶向（Cvt）途径的PAS组装。为了检测自噬特异性PAS的形成，使用ATG11缺失突变体消除营养生长条件下发生的PAS形成。我们发现，在自噬诱导条件下，Atg1、Atg13和Atg17在PAS形成中发挥的作用与营养生长期间Atg11所起的作用相似。特别是，Atg1被认为在自噬特异性PAS招募中具有双重作用。Atg1在将Atg蛋白有效招募到PAS中起结构作用，这是通过与Atg13和Atg17的相互作用介导的。相反，在自噬诱导条件下，Atg1激酶活性是Atg蛋白从PAS解离所必需的，这一功能对自噬活性也至关重要。

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Atg1在酿酒酵母自噬特异性吞噬泡前体组装调控中的双重作用。

Dual role of Atg1 in regulation of autophagy-specific PAS assembly in Saccharomyces cerevisiae.

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