par Kaafarani, Abeer 
;Darche-Gabinaud, Romain;Bisteau, Xavier ;Imbault, Virginie ;Wittamer, Valérie ;Parmentier, Marc ;Pirson, Isabelle
Référence Cells, 12, 22, page (2625)
Publication Publié, 2023-11-01
;Darche-Gabinaud, Romain;Bisteau, Xavier ;Imbault, Virginie ;Wittamer, Valérie ;Parmentier, Marc ;Pirson, Isabelle Référence Cells, 12, 22, page (2625)
Publication Publié, 2023-11-01
Article révisé par les pairs
| Résumé : | The Super-Conserved Receptors Expressed in the Brain (SREBs) form a subfamily of orphan G protein-coupled receptors, highly conserved in evolution and characterized by a predominant expression in the brain. The signaling pathways activated by these receptors (if any) are presently unclear. Given the strong conservation of their intracellular loops, we used a BioID2 proximity-labeling assay to identify protein partners of SREBs that would interact with these conserved domains. Using streptavidin pull-down followed by mass spectrometry analysis, we identified the amino acid transporter SLC3A2, the AKAP protein LRBA, and the 4.1 protein EPB41L2 as potential interactors of these GPCRs. Using co-immunoprecipitation experiments, we confirmed the physical association of these proteins with the receptors. We then studied the functional relevance of the interaction between EPB41L2 and SREB1. Immunofluorescence microscopy revealed that SREB1 and EPB41L2 co-localize at the plasma membrane and that SREB1 is enriched in the β-catenin-positive cell membranes. siRNA knockdown experiments revealed that EPB41L2 promotes the localization of SREB1 at the plasma membrane and increases the solubilization of SREB1 when using detergents, suggesting a modification of its membrane microenvironment. Altogether, these data suggest that EPB41L2 could regulate the subcellular compartmentalization of SREBs and, as proposed for other GPCRs, could affect their stability or activation. |
