Abstract
Understanding the molecular basis of drug action can facilitate development of more potent and selective drugs. Here, we explore the molecular basis for action of a unique small molecule ligand that is a type 1 cholecystokinin (CCK) receptor agonist and type 2 CCK receptor antagonist, GI181771X. We characterize its binding utilizing structurally related radioiodinated ligands selective for CCK receptor subtypes that utilize the same allosteric ligand-binding pocket, using wild-type receptors and chimeric constructs exchanging the distinct residues lining this pocket. Intracellular calcium assays were performed to determine biological activity. Molecular models for docking small molecule agonists to the type 1 CCK receptor were developed using a ligand-guided refinement approach. The optimal model was distinct from the previous antagonist model for the same receptor and was mechanistically consistent with the current mutagenesis data. This study revealed a key role for Leu(7.39) that was predicted to interact with the isopropyl group in the N1 position of the benzodiazepine that acts as a "trigger" for biological activity. The molecular model was predictive of binding of other small molecule agonists, effectively distinguishing these from 1065 approved drug decoys with an area under curve value of 99%. The model also selectively enriched for agonist compounds, with 130 agonists identified by ROC analysis when seeded in 2175 non-agonist ligands of the type 1 CCK receptor (area under curve 78%). Benzodiazepine agonists in this series docked in consistent pose within this pocket, with a key role played by Leu(7.39), whereas the role of this residue was less clear for chemically distinct agonists.
Highlights
Cholecystokinin receptor type 1 (CCK1R) stimulates satiety
We explore the molecular basis for action of a unique small molecule ligand that is a type 1 cholecystokinin (CCK) receptor agonist and type 2 CCK receptor antagonist, GI181771X
We utilized intracellular calcium mobilization assays and competition binding for small molecule benzodiazepine radioligands, selective for each of the two receptors, in combination with a series of chimeric CCK1R/CCK2R constructs systematically interchanging the distinct residues lining this pocket in these two subtypes of CCK receptors (3), to elucidate the key interactions defining the distinct pharmacologies
Summary
Cholecystokinin receptor type 1 (CCK1R) stimulates satiety. Results: Binding and activity of a CCK1R agonist/CCK2R antagonist are studied at wild-type and chimeric receptors, and ligand-guided model refinement is utilized. The model selectively enriched for agonist compounds, with 130 agonists identified by ROC analysis when seeded in 2175 non-agonist ligands of the type 1 CCK receptor (area under curve 78%) Benzodiazepine agonists in this series docked in consistent pose within this pocket, with a key role played by Leu7.39, whereas the role of this residue was less clear for chemically distinct agonists. We utilized intracellular calcium mobilization assays and competition binding for small molecule benzodiazepine radioligands, selective for each of the two receptors, in combination with a series of chimeric CCK1R/CCK2R constructs systematically interchanging the distinct residues lining this pocket in these two subtypes of CCK receptors (3), to elucidate the key interactions defining the distinct pharmacologies. The molecular models that were generated in this work provided an explanation for why this compound did not exhibit any biological agonist activity at the structurally related type 2 CCK receptor
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
