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Vol. 58, Issue 2, 399-406, August 2000
Department of Medicine and the GRASP Digestive Disease Center,
Tupper Research Institute, New England Medical Center, Boston,
Massachusetts
Recent efforts have focused on identifying small nonpeptide molecules
that can mimic the activity of endogenous peptide hormones. Understanding the molecular basis of ligand-induced receptor activation by these divergent classes of ligands should expedite the process of
drug development. Using the cholecystokinin-B/gastrin receptor (CCK-BR)
as a model system, we have recently shown that both affinity and
efficacy of nonpeptide ligands are markedly affected by amino acid
alterations within a putative transmembrane domain (TMD) ligand pocket.
In this report, we examine whether residues projecting into the TMD
pocket determine the pharmacologic properties of structurally diverse
CCK-BR ligands, including peptides and synthetic peptide-derived
partial agonists (peptoids). Nineteen mutant human CCK-BRs, each
including a single TMD amino acid substitution, were transiently
expressed in COS-7 cells and characterized. Binding affinities as well
as ligand-induced inositol phosphate production at the mutant CCK-BRs
were assessed for peptides (CCK-8 and CCK-4) and for peptoids
(PD-135,158 and PD-136,450). Distinct as well as overlapping
determinants of peptide and peptoid binding affinity were identified,
supporting that both classes of ligands, at least in part, interact
with the CCK-BR TMD ligand pocket. Eight point mutations resulted in
marked increases or decreases in the functional activity of the
synthetic peptoid ligands. In contrast, the functional activity of both
peptides, CCK-8 and CCK-4, was not affected by any of the CCK-BR
mutations. These findings suggest that the mechanisms underlying
activation of G-protein-coupled receptors by endogenous peptide
hormones versus synthetic ligands may markedly differ.
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