Shared mechanisms of dopamine and ATP transmission in the nucleus accumbens

Dopamine (DA) neurons of the midbrain project throughout the striatum, including the nucleus accumbens core (NAc) and are thought to co-release ATP with DA from vesicles. The mechanisms of evoked NAc ATP release and clearance and their relationship to exocytotic DA transmission are largely unexplored and the focus of the present work. Using fast scan cyclic voltammetry (FSCV), we measured simultaneous ATP and DA transmission in response to pharmacological manipulations of release and reuptake cellular machinery. ATP transmission is tightly coupled to that of DA, though ATP release concentrations are typically smaller. Manipulations that increase DA transmission (increased release via 4-aminopyridine Kv channel blockade or decreased uptake via cocaine) also increase ATP transmission, though to a smaller extent. Blocking DA vesicular packaging (reserpine) or action potentials (lidocaine), results in attenuated DA and ATP release. Interestingly, reserpine or lidocaine can result in completely abolished DA release, but not a complete prevention in ATP release, suggesting a secondary source for ATP transmission thats not dependent on DA terminals. Both transmitters were reduced to a similar extent following nAChR blockade, demonstrating that nAChR activation regulates ATP in addition to DA. Surprisingly, cocaine inhibition of DATs reduced clearance for both ATP and DA, which correlated with one another when cocaine concentration was highest. There was also a strong relationship between the effect of cocaine on release of ATP and DA. As the first FSCV study to examine evoked NAc ATP release, this paper bridges prior work to confirm the strong association between ATP and DA in the mesolimbic circuit and identifies unexpected overlap in mechanisms regulating their transmission. Our results contribute novel evidence of both vesicular and non-vesicular ATP release in the NAc and demonstrate that extracellular ATP is a modulator of DA terminal function.