Interaction of the sorting nexin 25 homologue Snazarus with Rab11 balances endocytic
and secretory transport and maintains the ultrafiltration diaphragm in nephrocytes
Proper balance of exocytosis and endocytosis is important for the maintenance of plasma
membrane lipid and protein homeostasis. This is especially critical in human podocytes
and the podocyte-like Drosophila nephrocytes that both use a delicate diaphragm system
with evolutionarily conserved components for ultrafiltration. Here we show that the
sorting nexin 25 homolog Snazarus (Snz) binds to Rab11 and localizes to Rab11-positive
recycling endosomes in Drosophila nephrocytes, unlike in fat cells where it is present
in plasma membrane/lipid droplet/ER contact sites. Loss of Snz leads to redistribution
of Rab11 vesicles from the cell periphery and increases endocytic activity in nephrocytes.
These changes are accompanied by defects in diaphragm protein distribution that resemble
those seen in Rab11 gain-of-function cells. Of note, co-overexpression of Snz rescues
diaphragm defects in Rab11 overexpressing cells, whereas snz knockdown in Rab11 overexpressing
nephrocytes or simultaneous knockdown of snz and tbc1d8b encoding a Rab11 GAP lead
to massive expansion of the lacunar system that contains mislocalized diaphragm components:
Sns and Pyd/ZO-1. We find that loss of Snz enhances while its overexpression impairs
secretion, which, together with genetic epistasis analyses, suggest that Snz counteracts
Rab11 to maintain the diaphragm via setting the proper balance of exocytosis and endocytosis.