Dopamine neurons derived from the mesencephalon of embryonic rats were maintained in primary culture, identified and studied with whole-cell patch recording techniques. These neurons demonstrated a rapidly activating and inactivating voltage-dependent outward current which required the presence of K+ ions. This current was termed IA because of its transient nature. It was elicited by step depolarizations from holding potentials more negative than -50 mV and exhibited steady-state inactivation at a membrane potential more positive than -40 mV and half-maximal inactivation observed at -65 mV. This current rapidly achieved peak activation in less than 8 msec and decayed with a time constant (tau) of 58 +/- 5 msec. This current was observed in the presence of tetraethylammonium but was readily blocked by 4-aminopyridine (2-4 mM). This current was also observed to be modulated by stimulation of D2 dopamine receptors (DA autoreceptors) located on the dopamine neurons. Thus, both DA and the D2 receptor agonist quinpirole enhanced the peak IA observed, while the partial D1 receptor agonist SKF 38393 was without effect. The enhancement of IA was confirmed to be due to the activation of D2 receptors as the effects of either DA or quinpirole were blocked by the D2 receptor antagonists eticlopride and sulpiride, but not by the D1 receptor antagonist SCH 23390. Since we have previously demonstrated that the IK present in these cells is also enhanced by D2 receptor stimulation, we investigated the signal transduction pathways involved in coupling DA autoreceptors to both IA and IK. The response of both these potassium currents to DA autoreceptor stimulation was completely abolished by the preincubation of cultures with pertussis toxin, indicating the possible involvement of the G proteins Gi and G(o). In an attempt to further characterize which G protein may be involved, additional experiments were performed. The ability of DA autoreceptor stimulation to augment both currents was also blocked completely when G protein activation was prevented by the intracellular application of GDP beta S (100 microM). In contrast, irreversible activation of G proteins by intracellular application of the nonhydrolyzable GTP analog GTP gamma S (100 microM) mimicked the effects of DA autoreceptor stimulation on both IA and IK. In addition, the intracellular application of a polyclonal antibody that was selective for the alpha-subunit of G(o) completely abolished the DA autoreceptor modulation of both currents while preimmune serum was without effect.(ABSTRACT TRUNCATED AT 400 WORDS)