Mesolimbic a6* nicotinic acetylcholine receptors (nAChRs) are thought to have an important role in nicotine behavioral effects. However, little is known about the role of the various a6*-nAChRs subtypes in the rewarding effects of nicotine. In this report, we investigated and compared the role of a6*-nAChRs subtypes and their neuro-anatomical locus in nicotine and cocaine reward-like effects in the conditioned place preference (CPP) paradigm, using pharmacological antagonism of a6b2* nAChRs and genetic deletion of the a6 or a4 subunits in mice. We found that a6 KO mice exhibited a rightward shift in the nicotine dose-response curve compared with WT littermates but that a4 KO failed to show nicotine preference, suggesting that a6a4b2*-nAChRs are involved. Furthermore, a6b2* nAChRs in nucleus accumbens were found to have an important role in nicotine-conditioned reward as the intra-accumbal injection of the selective a6b2* a-conotoxin MII [H9A; L15A], blocked nicotine CPP. In contrast to nicotine, a6 KO failed to condition to cocaine, but cocaine CPP in the a4 KO was preserved. Intriguingly, a-conotoxin MII [H9A; L15A], blocked cocaine conditioning in a4 KO mice, implicating a6b2* nAChRs in cocaine reward. Importantly, these effects did not generalize as a6 KO showed both a conditioned place aversion to lithium chloride as well as CPP to palatable food. Finally, dopamine uptake was not different between the a6 KO or WT mice. These data illustrate that the subjective rewarding effects of both nicotine and cocaine may be mediated by mesolimbic a6b2* nAChRs and that antagonists of these receptor subtypes may exhibit therapeutic potential.