Design, synthesis, and characterization of 6β-naltrexol analogs, and their selectivity for in vitro opioid receptor subtypes

Carbamate and sulfonate ester derivatives of 6β-naltrexol were synthesized, characterized, and screened for in vitro binding to μ, κ, and δ opioid receptor subtypes. Since the mu opioid receptor (MOR) is known to be involved in the therapeutically relevant pathways leading to the manifestation of pa...

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Bibliographic Details
Published in:Bioorganic & medicinal chemistry letters 2009-05, Vol.19 (10), p.2811-2814
Main Authors: Pelotte, Andrea L., Smith, Ryan M., Ayestas, Mario, Dersch, Christina M., Bilsky, Edward J., Rothman, Richard B., Deveau, Amy M.
Format: Article
Language:English
Subjects:
Antagonism
Biological and medical sciences
Medical sciences
MOR
Naltrexamide
Naltrexol
Neuropharmacology
Neurotransmitters. Neurotransmission. Receptors
Opioid
Peptidergic system (neuropeptide, opioid peptide, opiates...). Adenosinergic and purinergic systems
Pharmacology. Drug treatments
Synthesis
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Summary:Carbamate and sulfonate ester derivatives of 6β-naltrexol were synthesized, characterized, and screened for in vitro binding to μ, κ, and δ opioid receptor subtypes. Since the mu opioid receptor (MOR) is known to be involved in the therapeutically relevant pathways leading to the manifestation of pain and addiction, we are currently studying the specific structural characteristics that promote antagonism at the MOR. The opiates 6β-naltrexol and 6β-naltrexamide function as neutral antagonists in in vitro and in vivo systems previously exposed to morphine, and are under investigation as improved treatments for narcotic dependence. In this research, we synthesized and characterized carbamate and sulfonate ester derivates of 6β-naltrexol that do not contain a protic group at C 6, and evaluated these compounds for opioid receptor affinity. In vitro receptor subtype (μ, κ, and δ opioid receptors) binding data of the carbamate and sulfonate derivatives is reported. All four compounds synthesized exhibited affinity for the MOR better than the standard 6β-naltrexol HCl. Based on K i data, the order of MOR affinity is as follows: 9 > 13 > 14 > 10 > 6β-naltrexol HCl. Carbamate 9 and tosylate 13 displayed subnanomolar affinity for the MOR, while 10 was the most μ-selective compound synthesized. In conclusion, our data indicate that the absence of a hydrogen-bond donor on the C 6 oxygen enhances rather than impedes the in vitro affinity of naltrexol derivatives for the MOR. Additionally, data also suggest that increasing the bulk around C 6 may allow control of subtype selectivity within these compound series.
ISSN:0960-894X
1464-3405
DOI:10.1016/j.bmcl.2009.03.095