Metabolic-Stress-Induced Rearrangement of the 14-3-3ζ Interactome Promotes Autophagy via a ULK1- and AMPK-Regulated 14-3-3ζ Interaction with Phosphorylated Atg9-Reference-Cited by-同舟云学术

Metabolic-Stress-Induced Rearrangement of the 14-3-3ζ Interactome Promotes Autophagy via a ULK1- and AMPK-Regulated 14-3-3ζ Interaction with Phosphorylated Atg9

Published:2014-12-15 Issue:24 Volume:34 Page:4379-4388
ISSN:0270-7306
Container-title:Molecular and Cellular Biology
language:en
Short-container-title:Mol Cell Biol

Author:

Weerasekara Vajira K.¹,Panek David J.¹,Broadbent David G.¹,Mortenson Jeffrey B.¹,Mathis Andrew D.¹,Logan Gideon N.¹,Prince John T.¹,Thomson David M.²,Thompson J. Will³,Andersen Joshua L.¹

Affiliation:

1. Department of Chemistry and Biochemistry, Brigham Young University, Provo, Utah, USA

2. Department of Physiology and Developmental Biology, Brigham Young University, Provo, Utah, USA

3. Institute for Genome Sciences and Policy, Duke University Medical Center, Durham, North Carolina, USA

Abstract

ABSTRACT 14-3-3ζ promotes cell survival via dynamic interactions with a vast network of binding partners, many of which are involved in stress regulation. We show here that hypoxia (low glucose and oxygen) triggers a rearrangement of the 14-3-3ζ interactome to favor an interaction with the core autophagy regulator Atg9A. Our data suggest that the localization of mammalian Atg9A to autophagosomes requires phosphorylation on the C terminus of Atg9A at S761, which creates a 14-3-3ζ docking site. Under basal conditions, this phosphorylation is maintained at a low level and is dependent on both ULK1 and AMPK. However, upon induction of hypoxic stress, activated AMPK bypasses the requirement for ULK1 and mediates S761 phosphorylation directly, resulting in an increase in 14-3-3ζ interactions, recruitment of Atg9A to LC3-positive autophagosomes, and enhanced autophagosome production. These data suggest a novel mechanism whereby the level of autophagy induction can be modulated by AMPK/ULK1-mediated phosphorylation of mammalian Atg9A.

Publisher

American Society for Microbiology

Subject

Cell Biology,Molecular Biology

Link

https://journals.asm.org/doi/pdf/10.1128/MCB.00740-14

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