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C9orf72-catalyzed GTP loading of Rab39A enables HOPS-mediated membrane tethering and fusion in mammalian autophagy

Shen Zhang, Mindan Tong, Denghao Zheng, Huiying Huang, Linsen Li, Christian Ungermann, Yi Pan, Han-Yan Luo, Ming Lei, Zaiming Tang, Fu Wan, She Chen, Xiaoxia Liu, Qing Zhong

2023Nature Communications35 citationsDOIOpen Access PDF

Abstract

The multi-subunit homotypic fusion and vacuole protein sorting (HOPS) membrane-tethering complex is required for autophagosome-lysosome fusion in mammals, yet reconstituting the mammalian HOPS complex remains a challenge. Here we propose a "hook-up" model for mammalian HOPS complex assembly, which requires two HOPS sub-complexes docking on membranes via membrane-associated Rabs. We identify Rab39A as a key small GTPase that recruits HOPS onto autophagic vesicles. Proper pairing with Rab2 and Rab39A enables HOPS complex assembly between proteoliposomes for its tethering function, facilitating efficient membrane fusion. GTP loading of Rab39A is important for the recruitment of HOPS to autophagic membranes. Activation of Rab39A is catalyzed by C9orf72, a guanine exchange factor associated with amyotrophic lateral sclerosis and familial frontotemporal dementia. Constitutive activation of Rab39A can rescue autophagy defects caused by C9orf72 depletion. These results therefore reveal a crucial role for the C9orf72-Rab39A-HOPS axis in autophagosome-lysosome fusion.

Topics & Concepts

Cell biologyAutophagyLipid bilayer fusionC9orf72Guanine nucleotide exchange factorLysosomeTetheringAutophagosomeVacuoleGTPaseBiologyChemistryMembraneBiochemistryCytoplasmTrinucleotide repeat expansionApoptosisAlleleEnzymeGeneCellular transport and secretionAutophagy in Disease and TherapyLysosomal Storage Disorders Research
C9orf72-catalyzed GTP loading of Rab39A enables HOPS-mediated membrane tethering and fusion in mammalian autophagy | Litcius