par Dawaliby, Rosie 
;Trubbia, Cataldo ;Delporte, Cédric ;Masureel, Matthieu ;Van Antwerpen, Pierre ;Kobilka, Brian K.;Govaerts, Cédric
Référence Nature Chemical Biology, 12, 1, page (35-39), 1960
Publication Publié, 2016-01-12
;Trubbia, Cataldo ;Delporte, Cédric ;Masureel, Matthieu ;Van Antwerpen, Pierre ;Kobilka, Brian K.;Govaerts, Cédric Référence Nature Chemical Biology, 12, 1, page (35-39), 1960
Publication Publié, 2016-01-12
Article révisé par les pairs
| Résumé : | Lipids are emerging as key regulators of membrane protein structure and activity. These effects can be attributed either to the modification of bilayer properties (thickness, curvature and surface tension) or to the binding of specific lipids to the protein surface. For G protein-coupled receptors (GPCRs), the effects of phospholipids on receptor structure and activity remain poorly understood. Here we reconstituted purified β2-adrenergic receptor (β2R) in high-density lipoparticles to systematically characterize the effect of biologically relevant phospholipids on receptor activity. We observed that the lipid headgroup type affected ligand binding (agonist and antagonist) and receptor activation. Specifically, phosphatidylgycerol markedly favored agonist binding and facilitated receptor activation, whereas phosphatidylethanolamine favored antagonist binding and stabilized the inactive state of the receptor. We then showed that these effects could be recapitulated with detergent-solubilized lipids, demonstrating that the functional modulation occurred in the absence of a bilayer. Our data suggest that phospholipids act as direct allosteric modulators of GPCR activity. |
