Exploring electrostatic interactions of relaxin family peptide receptor 3 and 4 with ligands using a NanoBiT-based binding assay.

Relaxin family peptides perform a variety of biological functions by activating four G protein-coupled receptors, namely relaxin family peptide receptor 1-4 (RXFP1-4). We recently disclosed electrostatic interactions of the homologous RXFP3 and RXFP4 with some agonists based on activation complementation. However, this activation assay-based approach cannot be applied to antagonists that do not activate receptors.

Identifying the binding mechanism of LEAP2 to receptor GHSR1a.

Liver-expressed antimicrobial peptide 2 (LEAP2) is a highly conserved secretory peptide first isolated in 2003. However, its exact biological functions remained elusive until a recent study identified it as an endogenous antagonist for the growth hormone secretagogue receptor (GHSR1a), a G protein-coupled receptor for which the gastric peptide ghrelin is the endogenous agonist. By tuning the ghrelin-GHSR1a system, LEAP2 has an important function in energy metabolism.

Development of a novel ligand binding assay for relaxin family peptide receptor 3 and 4 using NanoLuc complementation.

Relaxin family peptides perform a variety of biological functions by binding and activating relaxin family peptide receptor 1-4 (RXFP1-4), four A-class G protein-coupled receptors. In the present work, we developed a novel ligand binding assay for RXFP3 and RXFP4 based on NanoLuc complementation technology (NanoBiT). A synthetic ligation version of the low-affinity small complementation tag (SmBiT) was efficiently ligated to the A-chain N terminus of recombinant chimeric agonist R3/I5 using recombinant circular sortase A.

Rapid preparation of bioluminescent tracers for relaxin family peptides using sortase-catalysed ligation.

Relaxin family is a group of peptide hormones with a variety of biological functions by activating G protein-coupled receptors RXFP1-4. We recently developed bioluminescent tracers for their receptor-binding assays by chemical conjugation with the ultrasensitive NanoLuc reporter. To simplify preparation of the bioluminescent tracers, in the present study, we established a sortase-catalysed ligation approach using the chimeric R3/I5 as a model.

Development of a selective agonist for relaxin family peptide receptor 3.

Relaxin family peptides perform a variety of biological functions by activating four G protein-coupled receptors, namely RXFP1-4. Among these receptors, RXFP3 lacks a specific natural or synthetic agonist at present. A previously designed chimeric R3/I5 peptide, consisting of the B-chain of relaxin-3 and the A-chain of INSL5, displays equal activity towards the homologous RXFP3 and RXFP4.