Structural basis of neuropeptide Y signaling through Y1 and Y2 receptors

Abstract

AbstractNeuropeptide Y (NPY), a 36‐amino‐acid peptide, functions as a neurotransmitter in both the central and peripheral nervous systems by activating the NPY receptor subfamily. Notably, NPY analogs display varying selectivity and exert diverse physiological effects through their interactions with this receptor family. [Pro34]–NPY and [Leu31, Pro34]–NPY, mainly acting on Y1R, reportedly increases blood pressure and postsynaptically potentiates the effect of other vasoactive substances above all, while N‐terminal cleaved NPY variants in human body primary mediates angiogenesis and neurotransmitter release inhibition through Y2R. However, the recognition mechanisms of Y1R and Y2R with specific agonists remain elusive, thereby hindering subtype receptor‐selective drug development. In this study, we report three cryo‐electron microscopy (cryo‐EM) structures of Gi2‐coupled Y1R and Y2R in complexes with NPY, as well as Y1R bound to a selective agonist [Leu31, Pro34]–NPY. Combined with cell‐based assays, our study not only reveals the conserved peptide‐binding mode of NPY receptors but also identifies an additional sub‐pocket that confers ligand selectivity. Moreover, our analysis of Y1R evolutionary dynamics suggests that this sub‐pocket has undergone functional adaptive evolution across different species. Collectively, our findings shed light on the molecular underpinnings of neuropeptide recognition and receptor activation, and they present a promising avenue for the design of selective drugs targeting the NPY receptor family.