Ligand recognition and G-protein coupling selectivity of cholecystokinin A receptor

Cholecystokinin A receptor (CCKAR) belongs to family A G-protein-coupled receptors and regulates nutrient homeostasis upon stimulation by cholecystokinin (CCK). It is an attractive drug target for gastrointestinal and metabolic diseases. One distinguishing feature of CCKAR is its ability to interact with a sulfated ligand and to couple with divergent G-protein subtypes, including G(s), G(i) and G(q). However, the basis for G-protein coupling promiscuity and ligand recognition by CCKAR remains unknown. Here, we present three cryo-electron microscopy structures of sulfated CCK-8-activated CCKAR in complex with G(s), G(i) and G(q) heterotrimers, respectively. CCKAR presents a similar conformation in the three structures, whereas conformational differences in the 'wavy hook' of the G alpha subunits and ICL3 of the receptor serve as determinants in G-protein coupling selectivity. Our findings provide a framework for understanding G-protein coupling promiscuity by CCKAR and uncover the mechanism of receptor recognition by sulfated CCK-8.

Automated summary

CCKAR is a G-protein-coupled receptor that regulates nutrient homeostasis by interacting with a sulfated ligand and coupling with different G-protein subtypes. The selectivity of G-protein coupling is determined by conformational differences in the G alpha subunits' 'wavy hook' and the ICL3 of the receptor.