The yeast DENN domain protein Avl9 contributes to recycling and sorting of endosomal cargos

In yeast and humans, the conserved DENN-domain (Differentially Expressed in Normal and Neoplastic tissue) protein Avl9 is thought to play roles in membrane traffic and secretion, but its precise function remains poorly defined. Since DENN-containing proteins are associated with Rab GTPase function, we sought to understand Avl9 function in the context of Rab regulation. Here, we show that Avl9 localizes to peripheral punctae that are consistent with secretory vesicles. Moreover, we demonstrate genetic interactions and co-localization between Avl9 and numerous Rabs in the secretory and endosomal pathways, suggesting a potential function at the interface of secretion and recycling. Consistent with this role, avl9{Delta} results in defective recycling of the endosomal cargo Snc1 but does not alter plasma membrane delivery of an endocytosis-defective Snc1EN- mutant, suggesting that Avl9 is not directly involved in secretory traffic from the TGN to the plasma membrane. The avl9{Delta} recycling defect is exacerbated by the additional loss of RCY1 or SNX4, but not VPS35. Each of these three genes contributes to a distinct endosomal recycling pathway, indicating that Avl9 acts in conjunction with multiple recycling pathways. Summary StatementIn this study, Rioux et al. describe a role for the DENN domain protein Avl9, previously thought to regulate secretion, as a novel factor involved in recycling of cargos from endosomal compartments.