Atg18 lifts up from and lands on the vacuolar membrane mediated by phosphorylation of its propellers

Pichia pastoris Atg18 (PpAtg18), a member of the PROPPIN family of proteins, is localized not only to the PAS (pre-autophagosomal structure or phagophore assembly site) during autophagy but also to the vacuolar membrane during vacuolar fission. Recently we reported that the localization of Atg18 was determined by its phosphorylation level. We identified two phosphorylated regions within the β-propeller structures of PpAtg18, whose modification affects its affinity toward phosphatidylinositol 3,5-bisphosphate [PtdIns(3,5)P₂]. The findings indicated that phosphoregulaton of Atg18 mediates the signal from various environmental stimuli and regulates its intracellular localization for vacuolar fission and autophagy.     

CCZ1, MON1 and YPT7 genes are involved in pexophagy, the Cvt pathway and non-specific macroautophagy in the methylotrophic yeast Pichia pastoris

Orthologues of Saccharomyces cerevisiae CCZ1, MON1 and YPT7 genes in the methylotrophic yeast, Pichia pastoris, have been identified. These genes encode proteins, which act as a complex, being involved in degradation of oleate-induced peroxisomes, Cvt (cytoplasm to vacuole targeting) pathway and non-specific macroautophagy in S. cerevisiae. CCZ1, MON1 and YPT7 gene orthologues are essential for multiple delivery pathways in P. pastoris. Strains with deletion of either of these genes displayed complete deficiency in pexophagy, non-specific macroautophagy and the biosynthetic Cvt pathway. The data suggest that CCZ1, MON1 and YPT7 genes are involved in degradation of both small oleate-induced and large methanol-induced peroxisomes. The data suggest conservative functions of CCZ1, MON1 and YPT7 genes among yeast species.