Abstract
Background: A lead quinuclidine-based nicotinic ligand (EQA) served as the basis for the design of novel compounds. A new series of 3-substituted quinuclidines was designed, synthesized and evaluated as nicotinic ligands.
Methods: The goal was to improve affinity for nicotinic receptors in the CNS. Interatomic distance calculations were performed on the proposed compounds as well as, known nicotinic ligands. The proposed compounds were then synthesized, characterized and evaluated in in vitro assays as nicotinic receptor ligands.
Results: Compounds 9a and 9b were found to inhibit the specific binding of H-3-(S)-Nicotine with Ki values of 48 nM and 42 nM respectively, indicating high affinity interactions with the alpha 4 beta 2 subtype. Data suggest that several compounds act as partial agonists at CNS receptors with an efficacy between 28 and 40% and are potent partial activators of human muscle type receptors (alpha 1 beta 1 gamma delta; Emax=80% that of 100 mu M nicotine).
Conclusions: Together these results indicate a partial agonism at muscle type receptors (ca. 40%) with no significant activation of rat ganglion-type receptors (alpha 3 beta 4* : asterisk indicates potential additional subunit that could partner to form the ganglionic receptor). The partial agonism inducing dopamine release from striatal synaptosomes (alpha 4 beta 2 alpha 6 alpha 4 beta 2 beta 3, and/or alpha 6 beta 2 beta 3) suggest that these compounds may in addition be acting at the alpha 4 beta 2 and/or the alpha 6 beta 3* receptors. The partial agonists reported herein are interesting nicotinic ligands worthy of further investigation.