Trafficking of the human Na+/H+ antiporter NHA2 to the plasma membrane requires cornichon COPII cargo receptors
Karolína Kacovská, Klára Papoušková, Gal Masrati, Paul Rosas‐Santiago, Tereza Przeczková, Veronika Žárská, Nir Ben‐Tal, Olga Zimmermannová

TL;DR
This paper shows that human cornichon proteins help transport the NHA2 transporter to the cell membrane, using yeast as a model system.
Contribution
NHA2 is identified as a novel cargo of cornichon COPII cargo receptors, revealing a new role for human CNIH proteins in membrane trafficking.
Findings
Human CNIH proteins functionally complement yeast ScErv14 in monovalent cation homeostasis.
NHA2 is a novel cargo of cornichon COPII receptors, as shown by improved plasma membrane targeting in yeast.
AlphaFold3 modeling suggests conserved residues in cornichon interact with Sec24 COPII proteins.
Abstract
A key prerequisite of transporter proteins' function is their trafficking to the target cellular membranes where they fulfill distinct physiological roles. Cornichon proteins (CNIH/Erv14) represent a highly conserved family of coat protein complex II (COPII)‐coated vesicle cargo receptors that facilitate the exit of numerous transporters from the endoplasmic reticulum (ER) to proceed via the secretory pathway. Despite their biomedical significance, the cargo specificities of the four human cornichons (CNIH1‐4) remain largely unexplored. Here, we conducted a bioinformatics analysis of the CNIH/Erv14 family, revealing evolutionary conservation profiles of the family based on an alignment of 1879 sequences. AlphaFold3 modeling predicts that residues identified as the most evolutionarily conserved in cornichon family interact with Sec24 proteins of COPII vesicles. We also demonstrate the…
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Taxonomy
TopicsIon Transport and Channel Regulation · Cellular transport and secretion · Calcium signaling and nucleotide metabolism
