Selectivity of ABT-089 for α4β2* and α6β2* nicotinic acetylcholine receptors in brain

Numerous pharmaceutical efforts have targeted neuronal nicotinic receptors (nAChRs) for amelioration of cognitive deficits. While α4β2 and α7 are the more prominent nAChR in brain, other heteromeric nAChR can have important impact on agonist pharmacology. ABT-089 is a pioneer nAChR agonist found to enhance cognitive function with an exceptionally low incidence of adverse effects. To further investigate the mechanism of action of ABT-089, we evaluated its function in mouse brain preparations in which we have characterized the subunit composition of native nAChR. Among α4β2*-nAChR, ABT-089 had partial agonist activity (7–23% of nicotine) and high selectivity for α4α5β2 nAChR as evidenced by loss of activity in thalamus of α5−/− mice. ABT-089 stimulated [3H]-dopamine release (57%) exceeded the activity at α4β2* nAChR, that could be explained by the activity at α6β2* nAChR. The concentration–response relationship for ABT-089 stimulation of α6β2* nAChR was biphasic. EC50 and efficacy values for ABT-089, respectively, were 28 μM and 98% at the less sensitive α6β2* nAChR and 0.11 μM and 36% at the more sensitive subtype (the most sensitive target for ABT-089 identified to date). ABT-089 had essentially no agonist or antagonist activity at concentrations ≤300 μM at α3β4-nAChR measured by [3H]-acetylcholine release from interpeduncular nucleus. Thus, ABT-089 is a β2* nAChR ligand with demonstrable agonist activity at α4β2* and α6β2* receptors. As one form of α6β2* nAChR is sensitive to sub-μM concentrations, we propose that this receptor in particular may contribute to the enhanced cognitive performance following low doses of ABT-089.

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