Crosslinking assay to study a specific cargo-coat interaction through a transmembrane receptor in the secretory pathway

Javier Manzano-Lopez,Alejandro Cortes-Gomez,Ana Maria Perez-Linero,Antonio Cordones-Romero,Auxiliadora Aguilera-Romero,Manuel Muñiz,Rafael Lucena,Sofia Rodriguez-Gallardo,Sergio Lopez,Susana Sabido-Bozo

doi:10.1371/journal.pone.0263617

Abstract

Intracellular trafficking through the secretory organelles depends on transient interactions between cargo proteins and transport machinery. Cytosolic coat protein complexes capture specific luminal cargo proteins for incorporation into transport vesicles by interacting with them indirectly through a transmembrane adaptor or cargo receptor. Due to their transient nature, it is difficult to study these specific ternary protein interactions just using conventional native co-immunoprecipitation. To overcome this technical challenge, we have applied a crosslinking assay to stabilize the transient and/or weak protein interactions. Here, we describe a protocol of protein crosslinking and co-immunoprecipitation, which was employed to prove the indirect interaction in the endoplasmic reticulum of a luminal secretory protein with a selective subunit of the cytosolic COPII coat through a specific transmembrane cargo receptor. This method can be extended to address other transient ternary interactions between cytosolic proteins and luminal or extracellular proteins through a transmembrane receptor within the endomembrane system.

Highlights

One-third of the proteome is synthesized in the endoplasmic reticulum (ER) and subsequently sorted during transport through the secretory pathway for delivery to their proper cellular destinations including the extracellular space, the plasma membrane, the endo-lysosomal system, or the secretory granules in specialized cells
To initiate the secretory pathway, correctly folded and assembled newly synthesized secretory proteins are segregated in the ER from immature and resident proteins, and selectively incorporated into proteincoated membrane vesicles that transport them from the ER to the Golgi [1]
These vesicles are made at specific regions of the ER membrane called ER exit sites (ERES) by the sequential assembly of the cytosolic COPII coat proteins

Summary

LAB PROTOCOL

Javier Manzano-Lopez☯*, Sofia Rodriguez-GallardoID☯, Susana Sabido-Bozo☯, Alejandro Cortes-Gomez, Ana Maria Perez-Linero, Rafael LucenaID, Antonio CordonesRomero, Sergio Lopez, Auxiliadora Aguilera-Romero*, Manuel MuñizID*.

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Introduction

Expected results

Author Contributions