Importance of the C-1 Substituent in Classical Cannabinoids to CB2Receptor Selectivity:  Synthesis and Characterization of a Series of O,2-Propano-Δ8-tetrahydrocannabinol Analogs

Department

Chemistry and Biochemistry

Document Type

Article

Publication Date

9-26-1997

Abstract

The separation of the mood-altering effects of cannabinoids from their therapeutic effects has been long sought. Results reported here for a series of C-9 analogs of the cyclic ether O,2-propano-Δ8-tetrahydrocannabinol (O,2-propano-Δ8-THC) point to the C-1 position in classical cannabinoids as a position for which CB2 subtype selectivity occurs within the cannabinoid receptors. O,2-Propano-11-nor-Δ8-THC, O,2-propano-Δ9,11-THC, O,2-propano-9-oxo-11-nor-hexahydrocannabinol (O,2-propano-9-oxo-11-nor-HHC), and O,2-propano-9α- and O,2-propano-9β-OH-11-nor-HHC were synthesized and evaluated in radioligand displacement assays for affinity at the CB1 and CB2 receptors and in the mouse vas deferens in vitro assay and the mouse tetrad in vivo assay for cannabinoid activity. Evaluation of binding affinity at the CB1 and CB2 receptors revealed that each compound possesses a modest increased affinity for the CB2 receptor. Analogs which contained an oxygen attached to C-9 (i.e., oxo and hydroxy derivatives) showed the highest affinity and selectivity for CB2 (for O,2-propano-9-oxo-11-nor-HHC, Ki(CB1) = 90 nM, Ki(CB2) = 23 nM, selectivity ratio 3.9; for O,2-propano-9β-OH-11-nor-HHC, Ki(CB1) = 26 nm, Ki(CB2) = 5.8 nM, selectivity ratio 4.5). Each compound was found to produce a dose-dependent inhibition of electrically-evoked contractions of the mouse isolated vas deferens when administered at submicromolar concentrations. This inhibition could readily be prevented by the selective CB1 cannabinoid receptor antagonist SR-141716A. The analogs exhibited unique in vivo profiles with O,2-propano-Δ9,11-THC exhibiting antinociception with reduced activity in three other in vivo measures and O,2-propano-9β-OH-HHC exhibiting lack of dose responsiveness in all measures. The CB2 selectivities of the O,2-propano analogs may be due to differences in solvation/desolvation that occur when the ligands enter the CB1 vs CB2binding site. Alternatively, the CB2 selectivities may be the result of an amino acid change from a hydrogen bond-accepting residue in CB1 to a hydrogen bond-donating residue in CB2.

Journal Title

Journal of Medicinal Chemistry

Journal ISSN

0022-2623

Volume

40

Issue

20

First Page

3312

Last Page

3318

Digital Object Identifier (DOI)

10.1021/jm970136g

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