Abstract
We have investigated a series of phenolic diaryl amino piperidine delta opioid receptor agonists, establishing the importance of the phenol functional group and substitution on the piperdine nitrogen for delta agonist activity and selectivity versus the mu and kappa opioid receptors. This study uncovered compounds with improved agonist potency and selectivity compared to the standard, non-peptidic delta agonist SNC-80. In vivo anti-nociceptive activity of analog 8e in two rodent models is discussed, demonstrating the potential of delta agonists to provide a novel mechanism for pain relief.
MeSH terms
-
Analgesics / chemical synthesis
-
Analgesics / chemistry*
-
Analgesics / pharmacology
-
Animals
-
Benzamides / chemical synthesis
-
Benzamides / chemistry*
-
Benzamides / pharmacology
-
Diphenylamine / analogs & derivatives*
-
Diphenylamine / chemical synthesis
-
Diphenylamine / chemistry
-
Diphenylamine / pharmacology
-
Disease Models, Animal
-
Mice
-
Piperidines / chemical synthesis
-
Piperidines / chemistry*
-
Piperidines / pharmacology
-
Rats
-
Receptors, Opioid, delta / agonists*
-
Receptors, Opioid, delta / metabolism
-
Structure-Activity Relationship
Substances
-
Analgesics
-
Benzamides
-
Piperidines
-
Receptors, Opioid, delta
-
Diphenylamine