Abstract
In autophagy, a cup-shaped membrane called the isolation membrane is formed, expanded, and sealed to complete a double membrane-bound vesicle called the autophagosome that encapsulates cellular constituents to be transported to and degraded in the lysosome/vacuole. The formation of the autophagosome requires autophagy-related (Atg) proteins. Atg8 is a ubiquitin-like protein that localizes to the isolation membrane; a subpopulation of this protein remains inside the autophagosome and is transported to the lysosome/vacuole. In the budding yeast Saccharomyces cerevisiae, Atg1 is a serine/threonine kinase that functions in the initial step of autophagosome formation and is also efficiently transported to the vacuole via autophagy. Here, we explore the mechanism and significance of this autophagic transport of Atg1. In selective types of autophagy, receptor proteins recognize degradation targets and also interact with Atg8, via the Atg8 family interacting motif (AIM), to link the targets to the isolation membrane. We find that Atg1 contains an AIM and directly interacts with Atg8. Mutations in the AIM disrupt this interaction and abolish vacuolar transport of Atg1. These results suggest that Atg1 associates with the isolation membrane by binding to Atg8, resulting in its incorporation into the autophagosome. We also show that mutations in the Atg1 AIM cause a significant defect in autophagy, without affecting the functions of Atg1 implicated in triggering autophagosome formation. We propose that in addition to its essential function in the initial stage, Atg1 also associates with the isolation membrane to promote its maturation into the autophagosome.
Highlights
Atg1 is a protein kinase essential for the initiation of autophagosome formation
We found that mutations in the Atg8 family interacting motif (AIM) of Atg1 attenuated autophagic activity, they did not affect Atg1 functions involved in the initiation of autophagosome formation
These fragments were likely to have been produced by proteolysis of Atg1-GFP in the vacuole because their accumulation was blocked by the addition of phenylmethylsulfonyl fluoride (PMSF), which inactivates the vacuolar protease Prb1
Summary
Atg is a protein kinase essential for the initiation of autophagosome formation. Results: Atg interacts with Atg to associate with forming autophagosomal membranes; specific disruption of this interaction causes a significant defect in autophagy. A cup-shaped membrane called the isolation membrane is formed, expanded, and sealed to complete a double membrane-bound vesicle called the autophagosome that encapsulates cellular constituents to be transported to and degraded in the lysosome/vacuole. In the budding yeast Saccharomyces cerevisiae, Atg is a serine/ threonine kinase that functions in the initial step of autophagosome formation and is efficiently transported to the vacuole via autophagy. In selective types of autophagy, receptor proteins recognize degradation targets and interact with Atg, via the Atg family interacting motif (AIM), to link the targets to the isolation membrane. Mutations in the AIM disrupt this interaction and abolish vac-
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