Design, Synthesis,
and Biological Evaluation of NAP
Isosteres: A Switch from Peripheral to Central Nervous System Acting
Mu-Opioid Receptor Antagonists
posted on 2022-03-08, 07:03authored byPiyusha
P. Pagare, Mengchu Li, Yi Zheng, Abhishek S. Kulkarni, Samuel Obeng, Boshi Huang, Christian Ruiz, James C. Gillespie, Rolando E. Mendez, David L. Stevens, Justin L. Poklis, Matthew S. Halquist, William L. Dewey, Dana E. Selley, Yan Zhang
The μ opioid receptor (MOR)
has been an intrinsic target
to develop treatment of opioid use disorders (OUD). Herein, we report
our efforts on developing centrally acting MOR antagonists by structural
modifications of 17-cyclopropylmethyl-3,14-dihydroxy-4,5α-epoxy-6β-[(4′-pyridyl)
carboxamido] morphinan (NAP), a peripherally acting MOR-selective
antagonist. An isosteric replacement concept was applied and incorporated
with physiochemical property predictions in the molecular design.
Three analogs, namely, 25, 26, and 31, were identified as potent MOR antagonists in vivo with significantly fewer withdrawal symptoms than naloxone observed
at similar doses. Furthermore, brain and plasma drug distribution
studies supported the outcomes of our design strategy on these compounds.
Taken together, our isosteric replacement of pyridine with pyrrole,
furan, and thiophene provided insights into the structure–activity
relationships of NAP and aided the understanding of physicochemical
requirements of potential CNS acting opioids. These efforts resulted
in potent, centrally efficacious MOR antagonists that may be pursued
as leads to treat OUD.