Dopamine Reduction of GABA Currents in Striatal Medium-sized Spiny Neurons is Mediated Principally by the D1 Receptor Subtype

Dopamine modulates voltage- and ligand-gated currents in striatal medium-sized neurons (MSNs) through the activation of D1- and D2-like family receptors. GABA_A receptor-mediated currents are reduced by D1 receptor agonists, but the relative contribution of D₁ or D₅ receptors in this attenuation has been elusive due to the lack of selective pharmacological agents. Here we examined GABA_A receptor-mediated currents and the effects of D1 agonists on MSNs from wildtype and D₁ or D₅ receptor knockout (KO) mice. Immunohistochemical and single-cell RT-PCR studies demonstrated a lack of compensatory effects after genetic deletion of D₁ or D₅ receptors. However, the expression of GABA_A receptor α1 subunits was reduced in D₅ KO mice. At the functional level, whole-cell patch clamp recordings in dissociated MSNs showed that GABA peak current amplitudes were smaller in cells from D₅ KO mice indicating that lack of this receptor subtype directly affected GABA_A-mediated currents. In striatal slices, addition of a D1 agonist reduced GABA currents significantly more in D₅ KO compared to D₁ KO mice. We conclude that D₁ receptors are the main D1-like receptor subtype involved in the modulation of GABA currents and that D₅ receptors contribute to the normal expression of these currents in the striatum. Special issue dedicated to Anthony Campagnoni.