A structural and regulatory framework for Atg9-containing vesicle formation and their Atg1-dependent remodelling during autophagy initiation

Autophagy is a complex intracellular degradation pathway that depends on the coordinated interplay between the core autophagy machinery and diverse membrane sources to drive the de novo formation of double-membrane vesicles, known as autophagosomes. Golgi-derived Atg9-containing vesicles are essential for this process, delivering membranes to the pre-autophagosomal structure (PAS). These vesicles contain the transmembrane proteins Atg9 and Atg27 and the peripheral membrane protein Atg23; however, the nature, function, and regulation of their interactions remain poorly understood.

Here, we systematically dissect the molecular interactions between Atg9, Atg23 and Atg27, and uncover their regulation in space and time. The bipartite binding mode by which Atg23 engages Atg9 provides a structural model for how Atg23 promotes vesicle budding. Furthermore, Atg1-dependent phosphorylation of Atg9 remodels its interactions with Atg23 and Atg27 at the PAS to support autophagy initiation. Together, these findings establish a molecular and regulatory framework for the earliest steps of autophagy.