Abstract
Replacement of the phenolic hydroxy in 3-((1R,5S,9R)-2-phenethyl-9-vinyl-2-azabicyclo[3.3.1]nonan-5-yl)phenol (DC-1-76.2), a potent efficacious MOR agonist, with an amide bioisosteric moiety provided a MOR partial agonist with morphine-like potency in the forskolin-induced cAMP accumulation assay and in the [(35)S]GTPγS functional assay. This amide, 5, had superior metabolic stability in comparison to its precursor in human and mouse liver microsomes. However, in an antinociception study, an assay of pain-depressed locomotion in mice, it was found to possess shorter antinociceptive activity than its precursor. The in vitro and in vivo data enabled the characterization of amide, 5, as a functionally selective, low-efficacy, and low-potency MOR agonist with a relatively short duration of action in vivo. Modification of the N-phenethyl substituent in DC-1-76.2 gave a number of highly interesting partial agonists and the unexpectedly potent antagonist, 17. The results of molecular docking and binding free energy calculations for DC-1-76.2 and 17 provided details about their receptor interactions and supported their functional roles. Several analogs synthesized were found to have sufficient potency in vitro to warrant further study.