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Decoding the function of Atg13 phosphorylation reveals a role of Atg11 in bulk autophagy initiation.

Anuradha BhattacharyaRaffaela TorgglerWolfgang ReiterNatalie RomanovMariya LichevaAkif CiftciMuriel C MariLena KolbDominik KaiserFulvio M ReggioriGustav AmmererDavid Maria HollensteinClaudine Kraft
Published in: EMBO reports (2024)
Autophagy is initiated by the assembly of multiple autophagy-related proteins that form the phagophore assembly site where autophagosomes are formed. Atg13 is essential early in this process, and a hub of extensive phosphorylation. How these multiple phosphorylations contribute to autophagy initiation, however, is not well understood. Here we comprehensively analyze the role of phosphorylation events on Atg13 during nutrient-rich conditions and nitrogen starvation. We identify and functionally characterize 48 in vivo phosphorylation sites on Atg13. By generating reciprocal mutants, which mimic the dephosphorylated active and phosphorylated inactive state of Atg13, we observe that disrupting the dynamic regulation of Atg13 leads to insufficient or excessive autophagy, which are both detrimental to cell survival. We furthermore demonstrate an involvement of Atg11 in bulk autophagy even during nitrogen starvation, where it contributes together with Atg1 to the multivalency that drives phase separation of the phagophore assembly site. These findings reveal the importance of post-translational regulation on Atg13 early during autophagy initiation, which provides additional layers of regulation to control bulk autophagy activity and integrate cellular signals.
Keyphrases
  • cell death
  • endoplasmic reticulum stress
  • signaling pathway
  • oxidative stress
  • protein kinase
  • gene expression
  • physical activity
  • single cell