Rabin8 phosphorylated by NDR2, the canine early retinal degeneration gene product, directs rhodopsin Golgi-to-cilia trafficking.

Abstract

The Rab11-Rabin8-Rab8 ciliogenesis complex regulates the expansion of cilia-derived light-sensing organelles, the rod outer segments, via post-Golgi rhodopsin transport carriers (RTCs). Rabin8 (also known as RAB3IP), an effector of Rab11 proteins and a nucleotide exchange factor (GEF) for Rab8 proteins, is phosphorylated at S272 by NDR2 kinase (also known as STK38L), the canine early retinal degeneration (erd) gene product linked to the human ciliopathy Leber congenital amaurosis (LCA). Here, we define the step at which NDR2 phosphorylates Rabin8 and regulates Rab11-to-Rab8 succession in Xenopus laevis transgenic rod photoreceptors expressing human GFP-Rabin8 and its mutants. GFP-Rabin8 accumulated with endogenous Rabin8 at the Golgi-apposed exit sites (GESs), also known as the trans-Golgi network (TGN). Rabin8 mutants deficient in Rab11 binding prevented membrane association of GFP-Rabin8. GFP-Rabin8 and NDR2 kinase both interacted with the RTC-associated R-SNARE VAMP7 at the trans-Golgi and the GESs. Here, GFP-Rabin8 and the phosphomimetic GFP-Rabin8-S272E integrated into RTCs, which were subsequently functionalized by Rabin8 Rab8 GEF activity. Non-phosphorylatable GFP-Rabin8-S272A caused significant GES enlargement and deformation, possibly leading to unconventional membrane advancement toward the cilium, bypassing RTCs. Rabin8 phosphorylation loss due to an NDR2 gene disruption thereby likely causes dysfunctional rhodopsin Golgi-to-cilia trafficking underlying retinal degeneration and early-onset blindness.