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Synthesis, Structure, In Vitro Pharmacology, and In Vivo Activity of Trans-3,4-dichloro-N- 1-(dimethylamino)-4-phenylcyclohexyl Methyl-benz Amide (AP01; 4-phenyl-AH-7921), a Novel Mixed Mu-/Kappa-opioid

NCJ Number
306229
Journal
Journal of Forensic Sciences
Date Published
February 2023
Annotation

This report describes research aimed at improving our understanding of the threat presented by AH- and U-series compounds, associated with novel synthetic opioids which have presented an ongoing threat to public safety; it explores substitution at the 4-position of the cyclohexyl ring and was intended to establish 4-phenyl-AH-7921 as an opioid analog.

Abstract

Analogs of non-fentanyl novel synthetic opioids (NSO) with modifications that fall outside of established structure–activity relationships (SARs) for that class of drugs create the question whether or not it should be considered an analog, as defined by 21 U.S.C. §802(32)(A), which is important for its inclusion in the US system of drug scheduling. AH-7921 is a US Schedule I drug and an example of the 1-benzamidomethyl-1-cyclohexyldialkylamine class of NSO. The SARs regarding substitution of the central cyclohexyl ring have not been well characterized in the literature. Therefore, in order to expand the SAR surrounding AH-7921 analogs, trans-3,4-dichloro-N-[[1-(dimethylamino)-4-phenylcyclohexyl]methyl]-benzamide (AP01; 4-phenyl-AH-7921) has been synthesized, analytically characterized, and tested in vitro and in vivo pharmacologically. Using methods described in the original patents for this class of NSO, it was found that the single trans geometric isomer was obtained. The proton nuclear magnetic resonance, mass spectrum, infrared spectrum, and Raman spectrum are reported along with the melting point of the hydrochloride salt. In vitro binding to a battery of 43 central nervous system receptors showed it to be a high-affinity μ-opioid receptor (MOR) and κ-opioid receptor (KOR) ligand (60 nM and 34 nM, respectively). AP01 also had a 4 nM affinity for the serotonin transporter (SERT), which is a higher level of potency at this receptor than most other opioids. In rats, it exhibited antinociception in the acetic acid writhing test. Therefore, the 4-phenyl modification results in an active NSO, but carries with it potential toxicities beyond those expected for currently approved opioid drugs. (Published Abstract Provided)

Date Published: February 1, 2023