Long-Term Nicotine Treatment Differentially Regulates Striatal α6α4β2* and α6(Nonα4)β2* nAChR Expression and Function

Abstract

Nicotine treatment has long been associated with alterations in α4β2^* nicotinic acetylcholine receptor (nAChR) expression that modify dopaminergic function. However, the influence of long-term nicotine treatment on the α6β2^* nAChR, a subtype specifically localized on dopaminergic neurons, is less clear. Here we used voltammetry, as well as receptor binding studies, to identify the effects of nicotine on striatal α6β2^* nAChR function and expression. Long-term nicotine treatment via drinking water enhanced nonburst and burst endogenous dopamine release from rat striatal slices. In control animals, α6β2^* nAChR blockade with α-conotoxin MII (α-CtxMII) decreased release with nonburst stimulation but not with burst firing. These data in control animals suggest that varying stimulus frequencies differentially regulate α6β2^* nAChR-evoked dopamine release. In contrast, in nicotine-treated rats, α6β2^* nAChR blockade elicited a similar pattern of dopamine release with nonburst and burst firing. To elucidate the α6β2^* nAChR subtypes altered with long-term nicotine treatment, we used the novel α-CtxMII analog E11A in combination with α4 nAChR knockout mice. ¹²⁵I-α-CtxMII competition studies in striatum of knockout mice showed that nicotine treatment decreased the α6α4β2^* subtype but increased the α6(nonα4)β2^* nAChR population. These data indicate that α6β2^* nAChR-evoked dopamine release in nicotine-treated rats is mediated by the α6(nonα4)β2^* nAChR subtype and suggest that the α6α4β2^* nAChR and/or α4β2^* nAChR contribute to the differential effect of higher frequency stimulation on dopamine release under control conditions. Thus, α6β2^* nAChR subtypes may represent important targets for smoking cessation therapies and neurological disorders involving these receptors such as Parkinson9s disease.