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Under normal conditions, dopamine (DA) clearance after release largely depends on uptake by the DA transporter (DAT). DAT expression/activity is reduced in some neuropsychiatric and neurological disorders. Our aim was to characterize the behavioral, neurochemical and electrophysiological effects of eliminating DAT in a novel knockout rat model we generated using CRISPR/Cas9. Consistent with existing DAT-KO models, our DAT-KO rats displayed increased locomotion, paradoxical calming by amphetamine, and reduced kinetics of DA clearance after stimulated release. Reduced DA kinetics were demonstrated using fast-scan cyclic voltammetry in brain slices containing the striatum or substantia nigra pars compacta (SNc) and in the dorsal striatum in vivo. Cocaine enhanced DA release in wild-type (WT) but not DAT-KO rats. Basal extracellular DA concentration measured with fast-scan controlled-adsorption voltammetry was higher in DAT-KO rats both in the striatum and SNc and was enhanced by L-DOPA (particularly after pharmacological block of monoamine oxidase), confirming that DA release after L-DOPA is not due to DAT reversal. The baseline firing frequency of SNc neurons was similar in both genotypes. However, D2 receptor-mediated inhibition of firing (by quinpirole or L-DOPA) was blunted in DAT-KO rats, while GABA |
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