Structure and dynamics of the RF-amide QRFP receptor GPR103

Abstract

AbstractPyroglutamylated RF amide peptide (QRFP) is a type of peptide hormone with a C-terminal RF-amide motif. QRFP selectively activates class-A categorized GPCR, GPR103 to exert various physiological functions such as energy metabolism and appetite regulation. Here, we report the cryo-electron microscopy structure of the QRFP-GPR103-Gqcomplex at 3.3 Å resolution. Unlike class-A GPCR, QRFP adopts an extended structure baring no secondary structure, with its N-terminal and C-terminal sides recognized by extracellular and transmembrane domains, respectively, of GPR103. The C-terminal heptapeptide of QRFP penetrates into the orthosteric pocket to act in receptor activation. Particularly, the residues that recognize the RF-amide are highly conserved in the RF-amide receptors. Notably, the unique N-terminal helix-loop-helix of the receptor traps the N-terminal side of QRFP with the pendulum-like motion to guide QRFP into the ligand-binding pocket. This movement, reminiscent of class B1 GPCRs except for orientation and structure of the ligand, is critical for the high affinity binding and receptor specificity of QRFP. Structural comparisons with closely related receptors, including RY-amide peptide-recognizing GPCRs, revealed conserved and diversified peptide recognition mechanisms, providing profound insights into the biological significance of RF-amide peptides. This study not only advances our understanding of GPCR-ligand interactions, but also paves the way for the development of novel therapeutics targeting metabolic and appetite disorders and emergency medical care.