Department of Pharmacology, Yong Loo Lin School of Medicine, National University of Singapore, Singapore.
Neurobiology Programme, Life Sciences Institute, National University of Singapore, Singapore.
Sci Signal. 2024 Feb 13;17(823):eabl5880. doi: 10.1126/scisignal.abl5880.
The neuropeptide relaxin-3 is composed of an A chain and a B chain held together by disulfide bonds, and it modulates functions such as anxiety and food intake by binding to and activating its cognate receptor RXFP3, mainly through the B chain. Biased ligands of RXFP3 would help to determine the molecular mechanisms underlying the activation of G proteins and β-arrestins downstream of RXFP3 that lead to such diverse functions. We showed that the i, i+4 stapled relaxin-3 B chains, 14s18 and d(1-7)14s18, were Gα-biased agonists of RXFP3. These peptides did not induce recruitment of β-arrestin1/2 to RXFP3 by GPCR kinases (GRKs), in contrast to relaxin-3, which enabled the GRK2/3-mediated recruitment of β-arrestin1/2 to RXFP3. Relaxin-3 and the previously reported peptide 4 (an i, i+4 stapled relaxin-3 B chain) did not exhibit biased signaling. The staple linker of peptide 4 and parts of both the A chain and B chain of relaxin-3 interacted with extracellular loop 3 (ECL3) of RXFP3, moving it away from the binding pocket, suggesting that unbiased ligands promote a more open conformation of RXFP3. These findings highlight roles for the A chain and the N-terminal residues of the B chain of relaxin-3 in inducing conformational changes in RXFP3, which will help in designing selective biased ligands with improved therapeutic efficacy.
神经肽松弛素-3 由 A 链和 B 链组成,通过二硫键连接在一起,通过与同源受体 RXFP3 结合并激活 RXFP3,主要通过 B 链来调节焦虑和摄食等功能。RXFP3 的偏倚配体将有助于确定激活 RXFP3 下游 G 蛋白和β-arrestin 的分子机制,从而导致其具有如此多样化的功能。我们表明,i,i+4 订书钉松弛素-3 B 链 14s18 和 d(1-7)14s18 是 RXFP3 的 Gα 偏向激动剂。这些肽不会像松弛素-3 那样诱导 G 蛋白偶联受体激酶 (GRK) 将β-arrestin1/2 募集到 RXFP3,从而使 GRK2/3 介导的β-arrestin1/2 募集到 RXFP3。松弛素-3 和之前报道的肽 4(一种 i,i+4 订书钉松弛素-3 B 链)没有表现出偏倚信号。肽 4 的订书链接和松弛素-3 的 A 链和 B 链的部分与 RXFP3 的细胞外环 3(ECL3)相互作用,使它远离结合口袋,这表明无偏配体促进了 RXFP3 的更开放构象。这些发现强调了松弛素-3 的 A 链和 B 链的 N 端残基在诱导 RXFP3 构象变化中的作用,这将有助于设计具有改善治疗效果的选择性偏倚配体。