The content explores the noncanonical functions of ATG5 and the membrane atg8ylation process, which go beyond their roles in the canonical autophagy pathway. The key findings are:
ATG5 associates with the core components of the retromer complex (VPS26, VPS29, VPS35) and this interaction is enhanced upon lysosomal damage.
Knockout of ATG5 or other components of the membrane atg8ylation machinery (ATG3, ATG7, ATG16L1) disrupts the sorting and trafficking of the retromer cargo GLUT1, causing its mislocalization to lysosomes. This effect is independent of the canonical autophagy pathway.
The proper localization of the small GTPase Rab7, which is known to interact with the retromer, is also dependent on the membrane atg8ylation apparatus but not on the canonical autophagy machinery.
Induction of the membrane atg8ylation process CASM (LC3-associated single membrane atg8ylation) also affects GLUT1 sorting, suggesting a direct link between membrane atg8ylation and retromer function.
Maintenance of endolysosomal homeostasis and integrity, which is regulated by membrane atg8ylation-dependent processes like lipid transfer by ATG2 and ESCRT-mediated lysosomal repair, is crucial for proper retromer-dependent cargo sorting.
In summary, the content demonstrates that ATG5 and the membrane atg8ylation machinery play a critical, autophagy-independent role in regulating the function of the retromer complex and endosomal cargo trafficking.
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by Paddar,M. A.... 於 www.biorxiv.org 07-12-2024
https://www.biorxiv.org/content/10.1101/2024.07.10.602886v1深入探究