Structure and dynamics of semaglutide and taspoglutide bound GLP-1R-Gs complexes

SUMMARY

The glucagon-like peptide-1 receptor (GLP-1R) regulates insulin secretion, carbohydrate metabolism and appetite, and is an important target for treatment of type II diabetes and obesity. Multiple GLP-1R agonists have entered into clinical trials, such as semaglutide, progressing to approval. Others, including taspoglutide, failed through high incidence of side-effects or insufficient efficacy. GLP-1R agonists have a broad spectrum of signalling profiles. However, molecular understanding is limited by a lack of structural information on how different GLP-1R agonists engage with the GLP-1R. In this study, we determined cryo-electron microscopy (cryo-EM) structures of GLP-1R-Gs protein complexes bound with semaglutide and taspoglutide. These revealed similar peptide binding modes to that previously observed for GLP-1. However, 3D variability analysis of the cryo-EM micrographs revealed different motions within the bound peptides and the receptor relative to when GLP-1 is bound. This work provides novel insights into the molecular determinants of peptide engagement with the GLP-1R.