What question did this study set out to answer?

This review aims to explore the molecular processes and interactions involved in autophagosome formation during autophagy.

June 1, 2026Open Access

Building the autophagosome: Molecular logic and membrane dynamics of autophagy

Puntos clave

This review aims to explore the molecular processes and interactions involved in autophagosome formation during autophagy.
Review of current literature on autophagy and autophagosome formation processes.
Analysis of the roles of different protein machineries and molecular interactions in membrane dynamics.
Discussion of protein–membrane interactions and their impact on phagophore structure.
Autophagosome formation is a finely-tuned process involving multiple proteins and membrane structures.
Membrane nucleation, expansion, and closure steps are crucial and coordinated by ATG proteins and specific lipids.
Insights into protein–membrane crosstalk have clarified how structural changes occur during phagophore maturation.

Resumen

Autophagy is initiated by the formation of a double-membrane autophagosome which is fine-tuned by the involvement of multiple protein machineries, organelles, and membrane pools. Autophagosome formation proceeds through steps requiring membrane nucleation, membrane expansion, and vesicle closure, initiated and coordinated by the cohort of ATG (Autophagy) proteins and lipids, such as PI(3)P and PE. Recent studies provide insights into how different molecular machineries act and interact to enable this complex vesicular pathway. Here, we review the current understanding of the steps that lead to autophagosome formation from a molecular perspective and, in this context, discuss the role of protein–membrane crosstalk in moulding the phagophore structure.

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