D2Autoreceptors Chronically Enhance Dopamine Neuron Pacemaker Activity

Abstract

Activation of D₂ autoreceptors on midbrain dopamine neurons has been shown previously to acutely open K⁺ channels to inhibit intrinsically generated pacemaker activity. Here we report that D₂ autoreceptors act chronically to produce an opposite action: to increase the speed and regularity of repetitive action potential firing. Voltage-, current-, and dynamic-clamp experiments, using conventional whole-cell and perforated patch-clamp recording, with cultured rat midbrain dopamine neurons show that a change in the number of functional A-type K⁺ channels alters firing rate and susceptibility to irregularity produced by other channels. cAMP and protein kinase A mediate the long-term action of D₂ receptors in a manner that counters the short-term effect of this signaling pathway on K⁺ channel gating. We conclude that D₂ autoreceptors, in addition to mediating acute negative feedback, are responsible for long-term enhancement of the rate and fidelity of dopamine neuron pacemaker activity.