Bupropion is an atypical antidepressant that also has usefulness as a smoking-cessation aid. Because hydroxybupropion, a major metabolite of bupropion, is believed to contribute to its antidepressant activity, this metabolite may also contribute to the smoking-cessation properties of bupropion. This study investigated the effects of hydrobupropion enantiomers on monoamine transporters and nicotinic acetylcholine receptor (nAChR) subtypes. Racemic bupropion and hydroxybupropion inhibit [3 H]norepinephrine (NE) uptake with similar potency (IC 50 values of 1.9 and 1.7 M, respectively), but most of the latter activity resides in the (2S,3S)-hydroxy isomer (IC 50 ϭ 520 nM) rather than (2S,3R)-hydroxybupropion (IC 50 Ͼ 10,000 nM). Similar results were found with [ 3 H]dopamine (DA) uptake. The effects of bupropion and enantiomers of hydroxybupropion on human nAChR subtypes indicate that the (2S,3S) isomer is more potent than the (2S,3R) isomer or racemic bupropion as an antagonist of ␣ 4  2 (functional IC 50 ϭ 3.3 M). In addition, (2S,3S)-hyroxybupropion and bupropion were considerably more potent than (2R, Ϫ3R)-hydroxybupropion in a mouse depression model (forced swimming test) and in antagonism of acute nicotine effects in mice. Together, our results suggest that clinical and behavioral effects of bupropion arise from actions at nAChR as well as DA and NE transporters. Furthermore, our data suggest that the (2S,3S)-hydroxybupropion isomer may be a better drug candidate for smoking cessation than bupropion because of its higher potency at the relevant targets.Tobacco use is the leading cause of premature death in the United States. The vast majority of smokers (70%) report a desire to quit smoking, but poor smoking-cessation results indicate a need to explore innovative approaches to treating nicotine addiction. In addition to nicotine-replacement therapy, the atypical antidepressant bupropion is now recognized as an effective aid to smoking cessation. The efficacy of bupropion in the treatment of nicotine dependence was believed to involve the modulation of dopaminergic (dopamine, DA) and noradrenergic (norepinephrine, NE) systems. Indeed, bupropion is a relatively weak DA-reuptake inhibitor and inhibits the firing of locus coeruleus NE neurons at high concentrations (Cooper et al., 1994). Its inhibition of transporter function is associated with increases in extracellular DA and NE concentrations, which may substitute for nicotine-evoked neurotransmitter release during smoking, mimicking nicotine reinforcement and alleviating withdrawal symptoms stemming from the absence of nicotine. No other neuronal sites were believed to play a role in bupropion's because of its lack of binding affinity for almost all of the major classes of neuronal receptors (Ascher et al., 1995).However, findings from our laboratories that bupropion acted as a relatively potent, noncompetitive nAChR antagonist suggested that actions of bupropion at nAChR were of possible relevance for smoking cessation, especially given the ABBREVIAT...
