Effect of ATG12-ATG5-ATG16L1 autophagy E3 complex on the ability of LC3/GABARAP proteins to induce

Trabajo presentado en el 44º Congreso Nacional de la Sociedad Española de Bioquímica y Biología Molecular (SEBBM), celebrado en Málaga entre el 6 y el 9 de septiembre de 2022.
In macroautophagy, the autophagosome (AP) engulfs portions of cytoplasm to allow their lysosomal degradation. AP formation in humans requires the concerted action of the ATG12 and LC3/GABARAP conjugation systems. The ATG12–ATG5-ATG16L1 (E3) complex acts as a ubiquitin-like E3 ligase enzyme, promoting LC3/GABARAP protein anchoring to the AP membrane. The role of the various proteins in the AP expansion process is still unclear, in part because there are no studies comparing LC3/GABARAP-family member roles under the same conditions, and also because the full human E3 complex was only recently available. In the present study, the lipidation of six members of the LC3/GABARAP family has been reconstituted in the presence and absence of E3, and the mechanisms by which E3 and LC3/GABARAP proteins participate in vesicle tethering and fusion have been investigated. In the absence of E3, GABARAP and GABARAPL1 showed the highest activities. Differences found within LC3/GABARAP proteins suggest the existence of a lipidation threshold, lower for the GABARAP subfamily, as a requisite for tethering and inter-vesicular lipid mixing. E3 increases and speeds up lipidation and LC3/GABARAP-promoted tethering. However E3 hampers LC3/GABARAP capacity to induce intervesicular lipid mixing or subsequent fusion, presumably through formation of a rigid scaffold on the vesicle surface. Our results suggest a model of AP expansion in which the growing regions would be areas where the LC3/GABARAP proteins involved should be susceptible to lipidation in the absence of E3, or else a regulation should exist to inhibit the formation of an E3 immobile scaffold.