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Ligand recognition mechanism of the human relaxin family peptide receptor 4 (RXFP4).

Yan ChenQingtong ZhouJiang WangYouwei XuYun WangJiahui YanYibing WangQi ZhuFenghui ZhaoChenghao LiChuan-Wei ChenXiaoqing CaiRoss A D BathgateChun ShenH Eric XuDehua YangHong LiuMing-Wei Wang
Published in: Nature communications (2023)
Members of the insulin superfamily regulate pleiotropic biological processes through two types of target-specific but structurally conserved peptides, insulin/insulin-like growth factors and relaxin/insulin-like peptides. The latter bind to the human relaxin family peptide receptors (RXFPs). Here, we report three cryo-electron microscopy structures of RXFP4-G i protein complexes in the presence of the endogenous ligand insulin-like peptide 5 (INSL5) or one of the two small molecule agonists, compound 4 and DC591053. The B chain of INSL5 adopts a single α-helix that penetrates into the orthosteric pocket, while the A chain sits above the orthosteric pocket, revealing a peptide-binding mode previously unknown. Together with mutagenesis and functional analyses, the key determinants responsible for the peptidomimetic agonism and subtype selectivity were identified. Our findings not only provide insights into ligand recognition and subtype selectivity among class A G protein-coupled receptors, but also expand the knowledge of signaling mechanisms in the insulin superfamily.
Keyphrases
  • type diabetes
  • glycemic control
  • small molecule
  • endothelial cells
  • electron microscopy
  • high resolution
  • crispr cas
  • induced pluripotent stem cells
  • skeletal muscle
  • immune response
  • protein protein
  • adipose tissue