Abstract
AbstractAutophagosome formation is the hallmark of macroautophagy (herein referred to as autophagy) and requires the covalent conjugation of LC3 proteins (or Atg8 in yeast) to the amino headgroup of PE (phosphatidylethanolamine) lipids. Atg3 is an enzyme that catalyzes the final step of this reaction by transferring LC3 from an LC3-Atg3 intermediate to PEs in targeted membranes. Here, we determine the solution structure of human Atg3 (hAtg3) and demonstrate that the catalytically important regions of hAtg3 are conformationally dynamic. Furthermore, we reveal that these regions and hAtg3’s N-terminal membrane curvature-sensing amphipathic helix concurrently interact with the membrane. These structural studies indicate that hAtg3 exploits a multifaceted membrane-association mechanism to position its catalytic center at the membrane surface and to bring the reaction substrates of LC3 and PE lipids to proximity for effective LC3-PE conjugation. In addition, our studies demonstrate that the interaction of the His266 residue with the membrane is primarily responsible for hAtg3’s pH-dependent activity. Our investigations advance an emerging concept that the interactions of Atg3 with the highly curved membrane rims of the phagophore spatially regulate autophagosome biogenesis.
Publisher
Cold Spring Harbor Laboratory
Cited by
1 articles.
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