D1 dopamine receptors stimulate cAMP accumulation in opossum kidney (OK) cells, but this response is attenuated by pretreatment with dopamine. Dopamine pretreatment also causes a reduction in D1 dopamine receptor number. We transfected OK cells with a rat cAMP phosphodiesterase cDNA (rPDE3) in order to determine the contribution of elevations of cAMP to those two phenomena. Wild-type (WT) OK cells were compared to three clones (C, H, and N) which demonstrated stable expression of the rPDE3 phenotype and genotype, rPDE3 RNA expression was confirmed in clones C, H, and N (but not in WT-OK cells) by reverse transcriptase-polymerase chain reaction. A functional rPDE3 phenotype was demonstrated in that dopamine-responsive cAMP accumulation was absent in clones C, H, and N in intact cells, but could be restored by preincubation with cAMP phosphodiesterase inhibitors, or by using washed membranes from those clones. All three clones had increased cAMP phosphodiesterase activity when compared to WT-OK cells (approximately 100% increase), and blunted or absent dopamine (1 microM)-induced protein kinase A activation. After pretreatment with dopamine (1 microM) for 1 h, clones C, H, and N desensitized equally well as WT-OK cells (approximately 40-50% reduction in maximal increase in cAMP). In contrast, down-regulation of D1 dopamine receptors was blunted for clone C (20% receptor loss) and absent for clones H and N, when compared to a 45% loss of receptors for WT-OK cells. These findings suggest that in OK cells pretreated with 1 microM dopamine (i) cAMP accumulation is not necessary for dopamine-induced desensitization, but (ii) is necessary for down-regulation of D1 dopamine receptors, and (iii) that the down-regulation and desensitization processes may be differentially regulated.