A conformational switch driven by phosphorylation regulates Ykt6 activity in macroautophagy

Membrane fusion, an essential process in all eukaryotes, is driven by SNARE proteins. Ykt6 is an essential SNARE that plays critical roles throughout the secretory, endocytic, and autophagy pathways. Ykt6 activity is thought to be regulated by a conformational change from a closed cytosolic form to an open membrane-bound form, yet the mechanism that regulates this transition is unknown. Through genetic, pharmacologic, and structural modeling approaches in mammalian cells, we found that phosphorylation regulates Ykt6 conversion from a closed to an open state. The phosphorylation site we identified is highly conserved in evolution and is regulated by the Ca-dependent phosphatase, calcineurin. We found that phosphorylation is a key determinant for intracellular localization of Ykt6 and its function in macroautophagy. Our studies reveal a novel mechanism by which Ykt6 conformation and activity is regulated by Ca signaling with implications in Parkinson’s Disease in which Ykt6 has been shown to play a role.