Structural insights into agonist binding and activation of succinate receptor 1

Succinate is an intermediate of the citric acid cycle and serves important functions in energy homeostasis and metabolic regulation. Extracellular accumulation of succinate acts as a stress-induced signal through its G protein-coupled receptor, SUCNR1. Research on succinate signaling is hampered by the lack of high-resolution structures of the agonist-bound receptor. Here we present cryo-EM structures of SUCNR1-Gi complexes with the receptor bound to succinate and its non-metabolite derivative epoxysuccinate. Structural analysis of SUCNR1 identified key determinants for recognition of the dicarboxylate agonists in cis conformation. R281 ^7.39 and Y83 ^2.64 are critical to ligand binding, but Y30 ^1.39 and R99 ^3.29 also participate in binding of succinate and epoxysuccinate, respectively. The extracellular loop 2, through F175 ^ECL2 in its β-hairpin, forms a hydrogen bond with one of the carboxyl groups and serves as a lid to cap the binding pocket for succinate. At the receptor-Gi protein interface, agonist binding induces the rearrangement of a hydrophobic network on TM5 and TM6, leading to transmembrane signaling through TM3 and TM7. The agonist-bound SUCNR1 structures shed light on molecular recognition of succinate for receptor signaling, that may promote further development of novel agonists, antagonists and biased agonists targeting SUCNR1.