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Structure, lipid scrambling activity and role in autophagosome formation of ATG9A. | LitMetric

AI Article Synopsis

  • - The study investigates the role of the autophagy-related protein ATG9A, which is involved in forming autophagosomes by scrambling phospholipids in membranes, though its exact function was previously unclear.
  • - Using cryo-electron microscopy, researchers found that ATG9A forms a trimer with a central pore that may act like a transporter, allowing lipids to move through its structure.
  • - Experiments showed that mutations in the pore reduced lipid scrambling and resulted in smaller autophagosomes, suggesting that ATG9A is crucial for membrane expansion during the formation of these compartments.

Article Abstract

De novo formation of the double-membrane compartment autophagosome is seeded by small vesicles carrying membrane protein autophagy-related 9 (ATG9), the function of which remains unknown. Here we find that ATG9A scrambles phospholipids of membranes in vitro. Cryo-EM structures of human ATG9A reveal a trimer with a solvated central pore, which is connected laterally to the cytosol through the cavity within each protomer. Similarities to ABC exporters suggest that ATG9A could be a transporter that uses the central pore to function. Moreover, molecular dynamics simulation suggests that the central pore opens laterally to accommodate lipid headgroups, thereby enabling lipids to flip. Mutations in the pore reduce scrambling activity and yield markedly smaller autophagosomes, indicating that lipid scrambling by ATG9A is essential for membrane expansion. We propose ATG9A acts as a membrane-embedded funnel to facilitate lipid flipping and to redistribute lipids added to the outer leaflet of ATG9 vesicles, thereby enabling growth into autophagosomes.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7718406PMC
http://dx.doi.org/10.1038/s41594-020-00520-2DOI Listing

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