ABL-MYC 轴控制 WIPI1 增强的自噬以延长寿命。

The ABL-MYC axis controls WIPI1-enhanced autophagy in lifespan extension.

机构信息

Interfaculty Institute of Cell Biology, Eberhard Karls University Tübingen, D-72076, Tübingen, Germany.

International Max Planck Research School 'From Molecules to Organisms', Max Planck Institute for Biology and Eberhard Karls University Tübingen, D-72076, Tübingen, Germany.

出版信息

Commun Biol. 2023 Aug 24;6(1):872. doi: 10.1038/s42003-023-05236-9.

DOI:10.1038/s42003-023-05236-9

PMID:37620393

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10449903/

Abstract

Human WIPI β-propellers function as PI3P effectors in autophagy, with WIPI4 and WIPI3 being able to link autophagy control by AMPK and TORC1 to the formation of autophagosomes. WIPI1, instead, assists WIPI2 in efficiently recruiting the ATG16L1 complex at the nascent autophagosome, which in turn promotes lipidation of LC3/GABARAP and autophagosome maturation. However, the specific role of WIPI1 and its regulation are unknown. Here, we discovered the ABL-ERK-MYC signalling axis controlling WIPI1. As a result of this signalling, MYC binds to the WIPI1 promoter and represses WIPI1 gene expression. When ABL-ERK-MYC signalling is counteracted, increased WIPI1 gene expression enhances the formation of autophagic membranes capable of migrating through tunnelling nanotubes to neighbouring cells with low autophagic activity. ABL-regulated WIPI1 function is relevant to lifespan control, as ABL deficiency in C. elegans increased gene expression of the WIPI1 orthologue ATG-18 and prolonged lifespan in a manner dependent on ATG-18. We propose that WIPI1 acts as an enhancer of autophagy that is physiologically relevant for regulating the level of autophagic activity over the lifespan.

摘要

人 WIPI β-螺旋桨作为 PI3P 效应物在自噬中起作用，WIPI4 和 WIPI3 能够将 AMPK 和 TORC1 对自噬的控制与自噬体的形成联系起来。相反，WIPI1 有助于 WIPI2 有效地将 ATG16L1 复合物招募到新生自噬体，进而促进 LC3/GABARAP 的脂质化和自噬体成熟。然而，WIPI1 的具体作用及其调控尚不清楚。在这里，我们发现了 ABL-ERK-MYC 信号轴控制 WIPI1。由于这种信号，MYC 结合到 WIPI1 启动子上并抑制 WIPI1 基因表达。当 ABL-ERK-MYC 信号被抵消时，增加的 WIPI1 基因表达增强了能够通过隧道纳米管迁移到具有低自噬活性的邻近细胞的自噬膜的形成。ABL 调节的 WIPI1 功能与寿命控制有关，因为 C. elegans 中的 ABL 缺乏增加了 WIPI1 同源物 ATG-18 的基因表达，并以依赖于 ATG-18 的方式延长了寿命。我们提出 WIPI1 作为自噬的增强子，对于调节寿命过程中的自噬活性水平具有生理相关性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/548a/10449903/607ab80fa990/42003_2023_5236_Fig1_HTML.jpg

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ABL-MYC 轴控制 WIPI1 增强的自噬以延长寿命。

The ABL-MYC axis controls WIPI1-enhanced autophagy in lifespan extension.

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