Regulation of macroautophagy and microautophagic lipophagy by phosphatidylserine synthase Cho1 and external ethanolamine

Phospholipids play crucial roles in autophagy; however, the underlying mechanisms remain elusive. We previously found that the phosphatidylserine (PtdSer) transporter Osh5 is critical for autophagosome formation. Therefore, in this study, we aimed to investigate the impact of the knockout of cho1 , which encodes PtdSer synthase, on autophagy. Green fluorescent protein-autophagy-related gene 8 (GFP-Atg8) processing assay revealed a significant defect in the macroautophagic activity of the cho1 Δ mutant, regardless of the presence or absence of ethanolamine (Etn). Notably, autophagosomes were absent in the cytosol, and macroautophagic bodies were not observed in the vacuoles of the starved cho1 Δ mutant, underscoring the essential role of PtdSer synthesized using Cho1 in autophagosome biogenesis. In contrast, numerous microautophagic vesicles containing lipid droplets were observed in the vacuoles of cho1 Δ mutants starved in the presence of Etn, suggesting the crucial role of phosphatidylethanolamine (PtdEtn) synthesized via the Kennedy pathway in microautophagic lipophagy when PtdSer synthesis using Cho1 is disrupted. Given recent evidence pointing to the involvement of the ubiquitination system in various autophagy-related processes, we also examined the role of ubiquitin-conjugating enzyme E2 gene ubc4 . Moreover, microautophagic lipophagy was significantly diminished in starved cho1 Δ yeast with ubc4 knockout. These findings suggest the critical role of Ubc4-mediated ubiquitination in facilitating microautophagic lipophagy of the vacuole in yeast cells.