| Literature DB >> 31066340 |
Eleonora Turco1, Marie Witt2,3, Christine Abert1, Tobias Bock-Bierbaum2, Ming-Yuan Su4,5, Riccardo Trapannone1, Martin Sztacho1, Alberto Danieli1, Xiaoshan Shi4, Gabriele Zaffagnini1, Annamaria Gamper1, Martina Schuschnig1, Dorotea Fracchiolla1, Daniel Bernklau1, Julia Romanov1, Markus Hartl1, James H Hurley4,5, Oliver Daumke2,3, Sascha Martens1.
Abstract
Macroautophagy/autophagy mediates the degradation of ubiquitinated aggregated proteins within lysosomes in a process known as aggrephagy. The cargo receptor SQSTM1/p62 condenses aggregated proteins into larger structures and links them to the nascent autophagosomal membrane (phagophore). How the condensation reaction and autophagosome formation are coupled is unclear. We recently discovered that a region of SQSTM1 containing its LIR motif directly interacts with RB1CC1/FIP200, a protein acting at early stages of autophagosome formation. Determination of the structure of the C-terminal region of RB1CC1 revealed a claw-shaped domain. Using a structure-function approach, we show that the interaction of SQSTM1 with the RB1CC1 claw domain is crucial for the productive recruitment of the autophagy machinery to ubiquitin-positive condensates and their subsequent degradation by autophagy. We also found that concentrated Atg8-family proteins on the phagophore displace RB1CC1 from SQSTM1, suggesting an intrinsic directionality in the process of autophagosome formation. Ultimately, our study reveals how the interplay of SQSTM1 and RB1CC1 couples cargo condensation to autophagosome formation.Entities:
Keywords: Aggrephagy; Atg8; ULK1; autophagosome; autophagy; cargo receptor; phase separation; protein quality control
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Year: 2019 PMID: 31066340 PMCID: PMC6613900 DOI: 10.1080/15548627.2019.1615306
Source DB: PubMed Journal: Autophagy ISSN: 1554-8627 Impact factor: 16.016