Ligands for kappa-opioid and ORL1 receptors identified from a conformationally constrained peptide combinatorial library

Abstract

We have screened a synthetic peptide combinatorial library composed of 2 x 10(7) beta-turn-constrained peptides in binding assays on four structurally related receptors, the human opioid receptors mu, delta, and kappa and the opioid receptor-like ORL1. Sixty-six individual peptides were synthesized from the primary screening and tested in the four receptor binding assays. Three peptides composed essentially of unnatural amino acids were found to show high affinity for human kappa-opioid receptor. Investigation of their activity in agonist-promoted stimulation of [(35)S]guanosine 5'-3-O-(thio)triphosphate binding assay revealed that we have identified the first inverse agonist as well as peptidic antagonists for kappa-receptors. To fine-tune the potency and selectivity of these kappa-peptides we replaced their turn-forming template by other turn mimetic molecules. This "turn-scan" process allowed the discovery of compounds with modified selectivity and activity profiles. One peptide displayed comparable affinity and partial agonist activity toward all four receptors. Interestingly, another peptide showed selectivity for the ORL1 receptor and displayed antagonist activity at ORL1 and agonist activity at opioid receptors. In conclusion, we have identified peptides that represent an entirely new class of ligands for opioid and ORL1 receptors and exhibit novel pharmacological activity. This study demonstrates that conformationally constrained peptide combinatorial libraries are a rich source of ligands that are more suitable for the design of nonpeptidal drugs.