Origin of extracellular dopamine from dopamine and noradrenaline neurons in the medial prefrontal and occipital cortex

Abstract

Our recent studies suggest that extracellular dopamine (DA) in the cerebral cortex not only originates from dopaminergic terminals but is also coreleased with noradrenaline (NA) from noradrenergic terminals [Devoto et al. ( 2001 ) Mol Psychiatry 6:657–664]. To further clarify this issue, the concentrations of extracellular DA, its deaminated metabolite, 3,4-dihydroxyphenylacetic acid (DOPAC), and NA were compared by microdialysis in the medial prefrontal cortex (mPFC), an area densely innervated by NA and DA neurons, and in the occipital cortex (OCC), equally innervated by NA but receiving scarce DA projections. Moreover, the effect of the α₂-adrenoceptor agonist clonidine locally perfused into the locus coeruleus (LC) on extracellular NA, DA, and DOPAC in the mPFC, OCC, and ventral striatum was investigated. Consistent with the homogeneous NA innervation, extracellular NA concentration was similar in both cortices, while extracellular DA in the OCC, in spite of the scarce DA afference in this area, was only 37% lower than in the mPFC; extracellular DOPAC in the OCC was 81% lower than in the mPFC. Consistent with its ability to inhibit NA neurons, clonidine (10 μM) reduced extracellular NA by about 65 and 80% in the OCC and the mPFC, respectively, but also reduced extracellular DA by 70 and 50% in the OCC and the mPFC, respectively. Clonidine reduced DOPAC in the OCC (by about 40%) but not in the mPFC. In the ventral striatum clonidine reduced NA (by 30%) but not DA and DOPAC. After inhibition of the DA and NA transporter, by perfusing 100 μM desmethyl-imipramine into the mPFC, clonidine perfusion into the LC reduced extracellular NA and DA in the mPFC by about 50%. The results indicate that most of extracellular DA in the OCC and a significant portion in the mPFC reflect the activity of NA neurons and support the hypothesis that extracellular DA in the cerebral cortex may originate not only from DA but also from NA neurons. Synapse 50:200–205, 2003.