Abstract
Affinity labeling is a powerful tool to establish spatial approximations between photolabile residues within a ligand and its receptor. Here, we have utilized a cholecystokinin (CCK) analogue with a photolabile benzoylphenylalanine (Bpa) sited in position 24, adjacent to the pharmacophoric domain of this hormone (positions 27-33). This probe was a fully efficacious agonist that bound to the CCK receptor saturably and with high affinity (K(i) = 8.9 +/- 1.1 nm). It covalently labeled the CCK receptor either within the amino terminus (between Asn(10) and Lys(37)) or within the third extracellular loop (Glu(345)), as demonstrated by proteolytic peptide mapping, deglycosylation, micropurification, and Edman degradation sequencing. Truncation of the receptor to eliminate residues 1-30 had no detrimental effect on CCK binding, stimulated signaling, or affinity labeling through a residue within the pharmacophore (Bpa(29)) but resulted in elimination of the covalent attachment of the Bpa(24) probe to the receptor. Thus, the distal amino terminus of the CCK receptor resides above the docked ligand, compressing the portion of the peptide extending beyond its pharmacophore toward the receptor core. Exposure of wild type and truncated receptor constructs to extracellular trypsin damaged the truncated construct but not the wild type receptor, suggesting that this domain also may play a protective role. Use of these additional insights into molecular approximations provided key constraints for molecular modeling of the peptide-receptor complex, supporting the counterclockwise organization of the transmembrane helical domains.
Highlights
Guanine nucleotide-binding protein (G protein)1-coupled receptors represent a remarkable group of structurally homologous membrane proteins that can bind and be activated by widely diverse ligands
We were interested in the structural details of how an amino-terminal extension from the CCK pharmacophore might be positioned relative to the CCK receptor
Unlike affinity labeling through photolabile residues that are positioned within the pharmacophore of CCK that have yielded only focused sites of covalent attachment to the receptor [8, 9], the present work with a photolabile benzophenone residue positioned outside of this domain has resulted in demonstration of the ability to label either of two sites in distinct regions of the CCK receptor
Summary
Guanine nucleotide-binding protein (G protein)1-coupled receptors represent a remarkable group of structurally homologous membrane proteins that can bind and be activated by widely diverse ligands. The site of covalent attachment of this probe to this fragment was further characterized by radiochemical sequencing of the labeled products of CNBr cleavage of wild type and V342M receptor constructs.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
