Cex1 is a component of the COPI intracellular trafficking machinery.

Ludovic Enkler,Johan Owen De Craene,Philippe Hammann,Bruno Rinaldi,Bruno Senger,Osamu Nureki,Hubert D Becker,Sylvie Friant

doi:10.1242/bio.058528

Abstract

ABSTRACTCOPI (coatomer complex I) coated vesicles are involved in Golgi-to-ER and intra-Golgi trafficking pathways, and mediate retrieval of ER resident proteins. Functions and components of the COPI-mediated trafficking pathways, beyond the canonical set of Sec/Arf proteins, are constantly increasing in number and complexity. In mammalian cells, GORAB, SCYL1 and SCYL3 proteins regulate Golgi morphology and protein glycosylation in concert with the COPI machinery. Here, we show that Cex1, homologous to the mammalian SCYL proteins, is a component of the yeast COPI machinery, by interacting with Sec27, Sec28 and Sec33 (Ret1/Cop1) proteins of the COPI coat. Cex1 was initially reported to mediate channeling of aminoacylated tRNA outside of the nucleus. Our data show that Cex1 localizes at membrane compartments, on structures positive for the Sec33 α-COP subunit. Moreover, the Wbp1 protein required for N-glycosylation and interacting via its di-lysine motif with the Sec27 β′-COP subunit is mis-targeted in cex1Δ deletion mutant cells. Our data point to the possibility of developing Cex1 yeast-based models to study neurodegenerative disorders linked to pathogenic mutations of its human homologue SCYL1.

Highlights

In eukaryotic cells, the final destination of proteins at specific intracellular compartment is ensured by different membrane trafficking pathways
CEX1 is not genetically linked to ARC1 To analyze the genetic interaction between ARC1 and CEX1, we generated and studied the cex1Δ and cex1Δ arc1Δ deletion strains
Based on previous reports, we sought to identify the genetic link between ARC1 and CEX1 in the nuclear export of aa-tRNA (McGuire and Mangroo, 2007, 2012; Nozawa et al, 2013)

Summary

Introduction

The final destination of proteins at specific intracellular compartment is ensured by different membrane trafficking pathways. The coat protein II (COPII) pathway is directing trafficking of proteins or lipids from the endoplasmic reticulum (ER) to the cis-Golgi. The retrograde pathway that ensures retrieval of some ER resident components, as well as Golgi trafficking of newly modified proteins is mediated by coatomer complex 1 (COPI) coated vesicles and the small GTPase. The COPI complex is made of α-COP (Sec33/Cop1/Ret1), β- (Sec26) β′(Sec27), γ- (Sec21), δ- (Ret2), ε- (Sec28) and ζ-COP (Ret3) proteins (Cosson and Letourneur, 1994). Membrane proteins have a C-terminal KKXX retrieval motif ensuring their retrograde transport by COPI vesicles via the Rer receptor. A subset of COPI-coated vesicles subunits (Sec, Sec and Sec33) assemble in a socalled COPIb complex, to target vacuolar protein sorting from the TGN to the vacuole via the CPY pathway (Gabriely et al, 2007)

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