GABA(B) and dopamine D2 receptors, both of which acutely inhibit adenylyl cyclase and high voltage-activated Ca2+ channels (HVA-CCs), are found in high levels in the melanotrope cells of the pituitary intermediate lobe. Chronic D2 receptor agonist application in vitro has been reported to result in inhibition of HVA-CC activity by down-regulation. Here we report that chronic GABA(B), but not GABA(A), agonist treatment also resulted in HVA-CC inhibition. Two GABA(B) receptor variants have been cloned and shown to inhibit adenylyl cyclase in HEK-293 cells. We have constructed an antisense deoxynucleotide knockdown-type probe that is complementary to 18 bp from the point at which the two sequences first become homologous. Chronic coincubation with baclofen and GABA(B) antisense nucleotide completely eliminated the inhibition of the channels by baclofen alone but had no reversing effect on HVA-CC inhibition by the D2 agonist quinpirole. A scrambled, missense nucleotide also had no reversing effect. Incubation with a D2 antisense knockdown probe eliminated the ability of a D2 agonist to inhibit the channels but had no effect on baclofen blockade. These results show the existence an R1a/R1b type of GABA(B) receptor, which, like the D2 receptor, is coupled to chronic HVA-CC inhibition in melanotropes.