Abstract
AbstractAlthough receptor activity-modifying proteins (RAMPs) have been shown to modulate the functions of several different G protein-coupled receptors (GPCRs), potential direct interactions among the three known RAMPs and hundreds of GPCRs has never been investigated. We engineered three epitope-tagged RAMPs and 23 epitope-tagged GPCRs, focusing on the secretin-like family of GPCRs, and developed a suspension bead array (SBA) immunoassay designed to detect RAMP-GPCR complexes. We then used 64 antibodies raised against native RAMPs and GPCRs, along with four antibodies targeting the epitope tags, to multiplex the SBA assay to detect and measure all possible combinations of interaction among the 23 GPCRs and three RAMPs. The results of the SBA assay provide a complete interactome of secretin-like GPCRs with RAMPs. We demonstrate direct interaction of previously reported secretin-like GPCRs whose functions are modulated by RAMPs. We also discovered novel sets of GPCR-RAMP interacting pairs, and found additional secretin-like GPCRs, chemokine receptors and orphan receptors that interact with RAMPs. Using in situ roximity ligation assay, we verified a subset of these novel GPCR-RAMP interactions in cell membranes. In total, we found GPCR-RAMP interactions for the majority of the 23 GPCRs tested. Each GPCR interacted with either all three RAMPs or with RAMP2 and RAMP3, with the exception of one GPCR that interacted with just RAMP3. In summary, we describe an SBA strategy that will be useful to search for GPCR-RAMP interactions in cell lines and tissues, and conclude that GPCR-RAMP interactions are more common than previously appreciated.
Publisher
Cold Spring Harbor Laboratory