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ULK complex organization in autophagy by a C-shaped FIP200 N-terminal domain dimer

Xiaoshan Shi, Adam L. Yokom, Chunxin Wang, Lindsey N. Young, Richard J. Youle, James H. Hurley

2020The Journal of Cell Biology100 citationsDOIOpen Access PDF

Abstract

The autophagy-initiating human ULK complex consists of the kinase ULK1/2, FIP200, ATG13, and ATG101. Hydrogen-deuterium exchange mass spectrometry was used to map their mutual interactions. The N-terminal 640 residues (NTD) of FIP200 interact with the C-terminal IDR of ATG13. Mutations in these regions abolish their interaction. Negative stain EM and multiangle light scattering showed that FIP200 is a dimer, while a single molecule each of the other subunits is present. The FIP200NTD is flexible in the absence of ATG13, but in its presence adopts the shape of the letter C ∼20 nm across. The ULK1 EAT domain interacts loosely with the NTD dimer, while the ATG13:ATG101 HORMA dimer does not contact the NTD. Cryo-EM of the NTD dimer revealed a structural similarity to the scaffold domain of TBK1, suggesting an evolutionary similarity between the autophagy-initiating TBK1 kinase and the ULK1 kinase complex.

Topics & Concepts

DimerULK1Autophagy-related protein 13AutophagyChemistryKinaseBiophysicsCrystallographyProtein kinase ABiochemistryBiologyCyclin-dependent kinase 2AMPKApoptosisOrganic chemistryAutophagy in Disease and TherapyEndoplasmic Reticulum Stress and DiseaseCellular transport and secretion
ULK complex organization in autophagy by a C-shaped FIP200 N-terminal domain dimer | Litcius