D-Amphetamine potentiates muscimol-induced disinhibition of A10 dopaminergic neurons in the rat.

UNLABELLED: Evidence suggests that sensitisation to the behavioural effects of d-amphetamine involves a late-onset (>3 hrs), long-term potentiation (LTP)-like change at medial prefrontal cortex (mPFC)-regulated synapses on A10 dopaminergic (DA) neurons. Since muscimol-induced excitation of A10 DA neurons is dependent on mPFC-regulated afferents, this assay was used to assess whether d-amphetamine enhances the driving of A10 DA neurons by the mPFC, as would be predicted if it resulted in the conditions necessary for LTP. Animals were administered d-amphetamine or saline, 3-4.5 hrs prior to recording. In the acute condition, animals were drug-naïve prior to d-amphetamine, whilst in the challenge condition, animals had previously received d-amphetamine (or saline) each day for 6 days. Recording took place on withdrawal day 2. Muscimol produced significantly less inhibition of A10 DA neurons from animals administered d-amphetamine (rather than saline), but only when d-amphetamine had been chronically administered beforehand (i.e. in the challenge condition). Hence, although the studies fail to provide evidence that acute d-amphetamine administration produces the conditions necessary for LTP, chronic d-amphetamine administration appears to potentiate the impact on A10 DA neurons of mPFC-regulated excitatory activity, thus strengthening the link between this potentiation and the sensitisation process. KEYWORDS: Ventral tegmental area, excitatory amino acids, medial prefrontal cortex, non-DA neurons, synaptic plasticity, behavioural sensitisation.