ATG16L1 functions in cell homeostasis beyond autophagy.

IF 5.5 2区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY
FEBS Journal Pub Date : 2022-04-01 Epub Date: 2021-04-08 DOI:10.1111/febs.15833
Daniel Hamaoui, Agathe Subtil
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引用次数: 10

Abstract

Atg16-like (ATG16L) proteins were identified in higher eukaryotes for their resemblance to Atg16, a yeast protein previously characterized as a subunit of the Atg12-Atg5/Atg16 complex. In yeast, this complex catalyzes the lipidation of Atg8 on pre-autophagosomal structures and is therefore required for the formation of autophagosomes. In higher eukaryotes, ATG16L1 is also almost exclusively present as part of an ATG12-ATG5/ATG16L1 complex and has the same essential function in autophagy. However, ATG16L1 is three times bigger than Atg16. It displays, in particular, a carboxy-terminal extension, including a WD40 domain, which provides a platform for interaction with a variety of proteins, and allows for the recruitment of the ATG12-ATG5/ATG16L1 complex to membranes under different contexts. Furthermore, detailed analyses at the cellular level have revealed that some of the ATG16L1-driven activities are independent of the lipidation reaction catalyzed by the ATG12-ATG5/ATG16L1 complex. At the organ level, the use of mice that are hypomorphic for Atg16l1, or with cell-specific ablation of its expression, revealed a large panel of consequences of ATG16L1 dysfunctions. In this review, we recapitulate the current knowledge on ATG16L1 expression and functions. We emphasize, in particular, how it broadly acts as a brake on inflammation, thereby contributing to maintaining cell homeostasis. We also report on independent studies that converge to show that ATG16L1 is an important player in the regulation of intracellular traffic. Overall, autophagy-independent functions of ATG16L1 probably account for more of the phenotypes associated with ATG16L1 deficiencies than currently appreciated.

ATG16L1在细胞自噬之外的稳态中起作用。
Atg16样蛋白(ATG16L)在高等真核生物中被鉴定出与Atg16相似,Atg16是一种酵母蛋白,以前被鉴定为Atg12-Atg5/Atg16复合物的亚基。在酵母中,该复合物催化at8在自噬体前结构上的脂化,因此是自噬体形成所必需的。在高等真核生物中,ATG16L1也几乎完全作为ATG12-ATG5/ATG16L1复合物的一部分存在,并且在自噬中具有相同的基本功能。但是,ATG16L1比Atg16大3倍。特别是,它显示了一个羧基末端延伸,包括一个WD40结构域,它提供了一个与多种蛋白质相互作用的平台,并允许ATG12-ATG5/ATG16L1复合物在不同环境下招募到膜上。此外,在细胞水平上的详细分析表明,一些ATG16L1驱动的活性与ATG12-ATG5/ATG16L1复合物催化的脂化反应无关。在器官水平上,使用Atg16l1亚型小鼠,或细胞特异性消融其表达,揭示了Atg16l1功能障碍的大量后果。在这篇综述中,我们对ATG16L1的表达和功能进行了综述。我们特别强调,它如何广泛地作为炎症的制动器,从而有助于维持细胞稳态。我们还报道了一些独立的研究,这些研究都表明ATG16L1在细胞内交通的调节中起着重要的作用。总的来说,ATG16L1的自噬独立功能可能比目前所认识的更多地解释了与ATG16L1缺陷相关的表型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
FEBS Journal
FEBS Journal 生物-生化与分子生物学
CiteScore
11.70
自引率
1.90%
发文量
375
审稿时长
1 months
期刊介绍: The FEBS Journal is an international journal devoted to the rapid publication of full-length papers covering a wide range of topics in any area of the molecular life sciences. The criteria for acceptance are originality and high quality research, which will provide novel perspectives in a specific area of research, and will be of interest to our broad readership. The journal does not accept papers that describe the expression of specific genes and proteins or test the effect of a drug or reagent, without presenting any biological significance. Papers describing bioinformatics, modelling or structural studies of specific systems or molecules should include experimental data.
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