Evidence for D2 Receptor Regulation of Dopamine Release in the Goldfish Retina

The possible existence of a dopamine D₂ receptor-mediated regulation of dopamine release was investigated in the goldfish retina. Isolated retinas were preloaded with [³H]dopamine and superfused with D₂ dopamine receptor agonists or antagonists to determine if there was an effect on [³H]dopamine release. The D₂ receptor antagonist sulpiride increased both baseline [³H]- dopamine release and [³H]dopamine release induced by an increase in extracellular potassium concentration. The D₂ receptor agonists LY-171555 and RU-24213 did not reduce baseline [³H]dopamine release but completely inhibited [³H]dopamine release induced by an increase in [K^±]_o. This action of the D₂ agonists was blocked by sulpiride. These studies demonstrate the existence of D₂ receptor, possibly autoreceptor, regulation of dopamine release in the teleost retina.     

Inhibition of Adenylyl Cyclase Activity by a Homogeneous Population of Dopamine Receptors: Selective Blockade by Antisera Directed Against Gi1 and/or Gi2

Abstract: The 7315c pituitary tumor cell expresses a homogeneous population of dopamine receptors that are functionally similar to brain dopamine D₂ receptors. [³H]-Sulpiride binding to 7315c cell homogenates was specific and saturable, and K _i values for compounds to compete for these sites were highly correlated with values for the same compounds at D₂ receptors in brain. Dopamine maximally inhibited ∼65% of forskolin-stimulated cyclase activity in cell membranes. Some D₂ agonists had lower efficacies, suggesting that some compounds are partial agonists at this receptor. Removal of GTP from the assay buffer or pretreatment of the tissue with pertussis toxin abolished the inhibition of adenylyl cyclase by dopamine. Immunodetection of most of the known Gα subunits revealed that G_i1, G_i2, G_i3, G_o, G_q, and G_s are present in the 7315c membrane. Pretreatment with the AS antibody (which recognizes the C-terminal regions of Gα_i1 and Gα_i2) significantly attenuated the inhibition of adenylyl cyclase activity by dopamine, whereas antibodies to C-terminal regions of the other Gα subunits had no effect. These findings suggest that the dopamine D₂ receptor regulates cyclase inhibition predominantly via G_i1 and/or G_i2 and that the 7315c tumor cells provide a useful model for studying naturally expressed dopamine D₂ receptors in the absence of other dopamine receptor subtypes.     

Nicotine Indirectly Inhibits [3H]Dopamine Uptake at Concentrations That Do Not Directly Promote [3H]Dopamine Release in Rat Striatum

The effects of both (-)- and (+)-nicotine isomers were examined on in vitro uptake and release of [3H]dopamine in rat striatum. Both isomers inhibited uptake of [3H]dopamine in chopped tissue at concentrations well below those necessary for promoting release of preloaded [3H]dopamine. (-)-Nicotine was more potent than (+)-nicotine both at inhibiting uptake and at promoting release. Unlike other dopamine uptake inhibitors, however, nicotine inhibited only 50% of the total uptake. In the presence of 1 nM nicotine, the residual [3H]dopamine uptake was less sensitive to inhibition by cocaine than uptake in the absence of nicotine. Nicotine did not compete against the binding of [3H]GBR 12935, a selective dopamine uptake inhibitor. The nicotinic receptor agonists carbachol and 1,1-dimethyl-4-phenylpiperazinium iodide also inhibited uptake, whereas the nicotinic antagonists chlorisondamine and mecamylamine blocked nicotine's effect. Thus, the effect of nicotine on dopamine uptake appears to be mediated by a receptor similar to the nicotinic acetylcholine receptor. These receptors do not seem to be on the terminals that are accumulating dopamine, however, since tetrodotoxin prevented the effect of nicotine on [3H]dopamine uptake and nicotine had no effect on uptake in a synaptosomal preparation.     

Effect of Ethanol Administration on Striatal D1 and D2 Dopamine Receptors

Chronic in vivo exposure of rats to ethanol in a complete liquid diet for 14 or 21 days produced a behavioral tolerance to the acute injection of ethanol. After 21 days, but not 14 days, of chronic exposure, there was a significant increase in the maximum density of striatal D1 and D2 dopamine receptors without a change in these receptors' affinities. A 24-h withdrawal from the 21-day exposure did not alter the observed increase in density. Both the level and duration of ethanol exposure appear to be important variables for demonstration of an increase in striatal D1 and D2 dopamine receptors.     

Increased Stimulated Release and Uptake of Dopamine in Nucleus Accumbens After Repeated Cocaine Administration as Measured by In Vivo Voltammetry

Electrically stimulated dopamine (DA) release (overflow) and uptake were measured with in vivo voltammetry in the nucleus accumbens (N ACC) of anesthetized rats that had previously received repeated cocaine treatments. Electrically stimulated DA release was induced by a 10-s stimulation in the medial forebrain bundle (2-ms, 200-microA, biphasic pulses at 100 Hz). DA overflow and uptake were measured with fast chronoamperometry using a Nafion-plated, carbon fiber electrode. Animals given repeated doses of cocaine (10 mg/kg s.c. from day 1 to 5, 20 mg/kg s.c. from day 6 to 10) showed marked increases in DA uptake (5.47 +/- 0.28 vs. 2.93 +/- 0.26 microM/s) and in stimulated DA overflow (27.3 +/- 1.1 vs. 18.9 +/- 1.3 microM) compared with DA uptake and stimulated overflow in saline control animals. The increased uptake was shown to be independent of the increased overflow. Uptake was monitored as a function of stimulation current, and the data were extrapolated to zero stimulation, resulting in calculated rates of uptake of 2.43 and 3.71 microM/s in the control and cocaine-treated groups, respectively. These effects were found to be temporary, as there were no significant differences in stimulated release or uptake between saline control animals and animals given 10 days of cocaine followed by a 10-day abstinence period. These alterations in the N ACC produced by repeated cocaine administration may be a compensatory response to prolonged uptake blockade of synaptic DA.     

Drug Potencies on Partially Purified Brain D2 Dopamine Receptors

To examine the sensitivities of partially purified dopamine receptors to various dopaminergic agonists and antagonists, canine brain striatum dopamine receptors were enriched by isoelectric focusing. The digitonin-solubilized receptors were prelabelled with [3H]spiperone and focused for two time periods. After 5 h (incomplete focusing), radioactive peaks were detected at pH 6 and 9-11. Only the pH 6 peak revealed drug sensitivities expected of D2 receptors. Receptor recovery of the pH 6 peak was 79% with purification being sevenfold. After focusing overnight to equilibrium, the pH 6 peak further separated into peaks at pH 4.6 and 6.8. The receptor was identified only in the pH 4.6 fraction. The recovery of receptors in the pH 4.6 peak was low (10%), indicating little enrichment of the receptor. The rank order of binding of neuroleptics and dopamine agonists to the purified material was similar to that of the original preparation of soluble receptors. Dopamine did not bind to the purified pH 4.6 fraction unless the phosphate buffer (used during focusing) was replaced with Tris buffer. The absence of receptors in the pH 6.8 and pH 10 fractions, although both contained prelabeled [3H]spiperone, indicates the importance of testing agonists and antagonists on each fraction at each step in purification.     

Dopamine D2 Receptor-Deficient Mice Exhibit Decreased Dopamine Transporter Function but No Changes in Dopamine Release in Dorsal Striatum

Abstract : Presynaptic D₂ dopamine (DA) autoreceptors, which are well known to modulate DA release, have recently been shown to regulate DA transporter (DAT) activity. To examine the effects of D₂ DA receptor deficiency on DA release and DAT activity in dorsal striatum, we used mice genetically engineered to have two (D₂^+/+), one (D₂^+/-), or no (D₂^-/-) functional copies of the gene coding for the D₂ DA receptor. In vivo microdialysis studies demonstrated that basal and K⁺-evoked extracellular DA concentrations were similar in all three genotypes. However, using in vivo electrochemistry, the D₂^-/- mice were found to have decreased DAT function, i.e., clearance of locally applied DA was decreased by 50% relative to that in D₂^+/+ mice. In D₂^+/+ mice, but not D₂^-/- mice, local application of the D₂-like receptor antagonist raclopride increased DA signal amplitude, indicating decreased DA clearance. Binding assays with the cocaine analogue [³H]WIN 35,428 showed no genotypic differences in either density or affinity of DAT binding sites in striatum or substantia nigra, indicating that the differences seen in DAT activity were not a result of decreased DAT expression. These results further strengthen the idea that the D₂ DA receptor subtype modulates activity of the striatal DAT.     

Structural Organization of the Murine D3 Dopamine Receptor Gene

Abstract: We have cloned the gene encoding the murine D₃ dopamine receptor and have analyzed its intron-exon structural organization, to gain a better understanding of the detailed architecture of the D₂ dopamine receptor genes. Restriction and sequence analysis reveal the presence of six introns, in contrast to the five introns previously reported for the rat D₃ receptor. The extra intron is located in the receptor's putative third cytoplasmic loop and generates an intron-exon organization directly analogous to that found in the D₂ receptor gene. In addition, we have sequenced the 5' and 3' nontranslated sequences flanking the coding region and have identified a putative poly(A) adenylation signal. These sequences are found to have a far lower homology with the corresponding rat nontranslated sequences than is found for the D₂ receptor, suggesting that the control of D₃ receptor expression may vary more between species than the control of D₂ receptor expression.     

Stimulation of [3H]Dopamine Release by Nicotine in Rat Nucleus Accumbens

Abstract: The mesolimbic system of the brain has been shown to be involved in the reward properties of a number of agents. It is possible that release of monoamines by nicotine in this brain area could be related to the pleasurable aspects related to cigarette smoking. In this investigation, the effect of nicotine on the release of [³H]dopamine in the nucleus accumbens of the rat was studied. It was shown that nicotine produced a concentration-dependent increase in [³H]dopamine release at concentrations of 0.1 μ M and above. The increase in release was found to be almost completely calcium dependent. The nicotine-induced release was only partially blocked by the nicotinic antagonists hexamethonium and d -tubocurarine. A number of cholinergic agonists, as well as other compounds, were tested for their capacity to mimic the effect of nicotine. At equimolar concentrations there was, at most, only 50% of the activity of nicotine. The results of this study demonstrate that nicotine stimulates the release of dopamine in the nucleus accumbens at concentrations similar to those in the blood of cigarette smokers. This suggests that the release of mono-amines in specific nuclei of the mesolimbic system may be an important determinant of the desire to smoke cigarettes.     

Activation of D1 and D2 Dopamine Receptors Inhibits Protein Kinase C Activity in Striatal Synaptoneurosomes

Abstract: The effects of D₁ and D₂ dopamine ligands on protein kinase C (PKC) activity were examined in synaptoneurosomes. Incubation with D₁ agonists (SKF 38393, fenodopam), in the presence of calcium, decreased the soluble and increased the particulate PKC activity. These effects were reversed by SCH 23390, which by itself had the opposite effect of increasing the soluble and decreasing the particulate PKC activity. In contrast, incubation with the D₂ agonists [LY 171555, (+)-3-(3-hydroxyphenyl)- N - n -propylpiperidine, RU 24213] increased the soluble and decreased the particulate PKC activity. These effects were reversed by sulpiride. (−)-3-(3-Hydroxyphenyl)- N - n -propylpiperidine had a D₂ antagonist profile. Apomorphine showed a biphasic dose-response change; i.e., it decreased particulate PKC activity at the D₂ receptor at low concentrations (0.1 µ M ) and increased it at the D₁ receptor at higher concentrations (10 µ M ). Pretreatment with tetrodotoxin or omission of calcium in the incubation medium did not alter the responses of the D₂ agonists, but it reversed the changes in PKC activity induced by the D₁ agonists and converted the biphasic response of apomorphine to a monophasic inhibition. These results indicate that (1) D₁ and D₂ dopamine receptors are negatively coupled to PKC and (2) the increase in particulate PKC activity seen with the D₁ drugs in the presence of calcium is mediated indirectly via a transneuronal effect.     

Ascorbic Acid Inhibits 125I-SCH 23982 Binding but Increases the Affinity of Dopamine for D1 Dopamine Receptors

Abstract: Effects of ascorbic acid (AA) on ¹²⁵I-SCH 23982 binding to D₁ dopaminergic receptors in membrane preparations from rat striatum were investigated. AA in the range of 0.03 µ M –0.33 m M inhibited 75% of specific binding of ¹²⁵I-SCH 23982 in a dose-dependent manner. At higher concentrations, this inhibition of binding activity by AA was less potent, and 3.3 m M AA inhibited only 30% of specific binding. Reduced glutathione did not alter the inhibition of binding by 0.33 m M AA, but reduced the inhibition by 3.3 m M AA to 8% of specific binding. The loss of specific binding by AA was rescued by 1 m M EDTA, an inhibitor of lipid peroxidation. In the absence of AA, competition experiments with the agonist, dopamine, revealed the presence of high-affinity ( K _h = 224.9 ± 48.9 n M ) and low-affinity ( K _l = 21,100 ± 2,400 n M ) binding sites. Although the maximum binding of ¹²⁵I-SCH 23982 decreased to 40% without affecting the K _D value in the presence of 1.67 m M AA, the value of the high-affinity site for dopamine was increased ( K _h = 23.3 ± 9.4 n M ) and that of the low-affinity site was decreased ( K _l = 136,800 ± 40,900 n M ). These results suggest that AA may affect D₁ dopamine receptor function by lipid peroxidation, competition with dopamine for low-affinity sites, and reduced oxidation of dopamine.     

[3H]Nemonapride and [3H]Spiperone Label Equivalent Numbers of D2 and D3 Dopamine Receptors in a Range of Tissues and Under Different Conditions

Abstract: [³H]Nemonapride and [³H]spiperone are very widely used to study dopaminergic systems in vitro and in vivo, but it has been reported that [³H]nemonapride and [³H]spiperone give markedly different B _max values for preparations of D₂ dopamine receptors from recombinant cell lines or animal tissues. We have used the two radioligands in parallel to study a range of dopamine receptors [D_2(short), D_2(long), and D₃] in different buffers. B _max values derived using either radioligand differ by an average of <20%, independent of receptor type or buffer conditions. All competition experiments show that the two ligands compete at a single site. It seems that [³H]spiperone and [³H]nemonapride do not differentiate between different forms or populations of D₂-like receptors.     

Modulation of In Vivo Dopamine Release by D2 but Not D1 Receptor Agonists and Antagonists

The capacity of D1 and D2 agonists and antagonists to regulate the in vivo release and metabolism of dopamine (DA) in mesolimbic and nigrostriatal DA neurons of the mouse was determined using gas chromatographic and mass fragmentographic (GC-MF) analysis. DA release was inferred from levels of 3-methoxytyramine (3-MT) and DA metabolism was inferred from levels of 3,4-dihydroxyphenylacetic acid (DOPAC) and homovanillic acid (HVA). DA release was increased by the D2 antagonists haloperidol and metoclopramide but not by the D1 antagonists SCH 23390 and SKF 83566. DA metabolism was increased by each of the four antagonists but to a greater extent with the D2 antagonists. The D2 agonists CGS 15855A and LY 171555 decreased DA release whereas the D1 agonist SKF 38393, at relatively high doses, only slightly affected DA release. Each of the three agonists decreased DA metabolism but again metabolism was more affected by the D2-selective drugs. The in vivo release of DA from mesolimbic and neostriatal DA neurons appears to be modulated by D2 but not by D1 receptors, whereas both receptor types can modulate DA metabolism.     

Chimeric D2/D3 Dopamine Receptors Efficiently Inhibit Adenylyl Cyclase in HEK 293 Cells

Abstract: Despite a high degree of sequence homology, the dopamine D₂ and D₃ receptors have substantially different second messenger coupling properties. We have used chimeric D₂/D₃ receptors to investigate the contribution of the intracellular loops to the signaling properties of these receptors. In HEK 293 cells, D₂ receptors inhibit prostaglandin E₁-stimulated cyclic AMP levels by >90%, whereas D₃ receptors inhibit cyclic AMP accumulation by only 20%. In chimeras that have the second or third intracellular loop, or both loops simultaneously, switched between the D₂ and D₃ receptors, the maximal inhibition of adenylyl cyclase is 60–90%. In addition, the potency of quinpirole to inhibit adenylyl cyclase activity at some of the chimeras is altered compared with the wild-type receptors. It appears that the intracellular loops of the D₃ receptor are capable of interacting with G proteins, as when these loops are expressed in the D₂ receptor, the chimeras inhibit adenylyl cyclase similarly to the wild-type D₂ receptor. Our data suggest that the overall conformation of the D₃ receptor may be such that it interacts with G proteins only weakly, but when the intracellular loops are expressed in another context or the D₃ receptor structure is altered by the introduction of D₂ receptor sequence, this constraint may be lifted.     

D1 and D2 Dopamine Receptors in Caudate-Putamen of Nonhuman Primates (Macaca fascicularis)

D1 and D2 dopamine receptors were characterized in the caudate-putamen region of nonhuman primate brains (Macaca fascicularis). D1 dopamine receptors were identified with [3H]SCH 23390 and D2 receptors with [3H]-spiperone. Scatchard analysis of [3H]SCH 23390 saturation data using washed membranes revealed a single high-affinity binding site (KD, 0.352 +/- 0.027 nM) with a density (Bmax) of 35.7 +/- 2.68 pmol/g original wet tissue weight (n = 10). The affinity of [3H]spiperone for the D2 site was 0.039 +/- 0.007 nM and the density was 25.7 +/- 1.97 pmol/g original wet tissue weight (n = 10). D1 and D2 receptors in nonhuman primates may be differentiated on the basis of drug affinities and stereoselectivity. In competition experiments, RS-SKF 38393 was the most selective D1 agonist, whereas (+)-4-propyl-9-hydroxynaphthoxazine [(+)-PHNO] was the most selective D2 agonist. Apomorphine was essentially nonselective for D1 or D2 binding sites. Of the antagonists, R-SKF 83566 and SCH 23390 were the most selective for the D1 site, whereas YM-09151-2 was the most selective for the D2 site. cis-Flupentixol and (S)-butaclamol were the least selective dopamine antagonists. D1 receptors bound benzazepine antagonists (SCH 23390/SCH 23388, R-SKF 83692/RS-SKF 83692) stereoselectively whereas D2 receptors did not. Conversely D2 receptors bound (S)-sulpiride and (+)-PHNO more potently than their enantiomers whereas D1 receptors showed little stereoselectively for each of these isomeric pairs. These binding characteristics may be utilized for evaluation of individual receptor function in vivo.     

Effects of the Dopamine D3 Antagonist PD 58491 and Its Interaction with the Dopamine D3 Agonist PD 128907 on Brain Dopamine Synthesis in Rat

Abstract: The dopamine (DA) D₃ receptor antagonist PD 58491 {3-[4-[1-[4-[2-[4-(3-diethylaminopropoxy)phenyl]-benzoimidazol-1-yl-butyl]-1 H -benzoimidazol-2-yl]-phenoxy]propyl]diethylamine} bound with high affinity and selectivity to recombinant human DA D₃ versus D_2L and D_4.2 receptors transfected into Chinese hamster ovary cells: K _i values of 19.5 n M versus 2,362 and >3,000 n M , respectively. In contrast, the putative DA D₃ receptor antagonist (+)-AJ76 displayed low affinity and selectivity for D₃ versus D_2L and D_4.2 receptors (91 n M vs. 253 and 193 n M , respectively). In vitro, PD 58491 (1 n M −1µ M ) exhibited D₃ receptor antagonist activity, reversing the quinpirole (10 n M )-induced stimulation of [³H]thymidine uptake in D₃ CHOpro-5 cells, but did not have any significant intrinsic activity by itself in this assay. PD 58491 did not decrease the γ-butyrolactone-induced increase in DA synthesis ( l -3,4-dihydroxyphenylalanine accumulation) in rat striatum, indicating that the compound possessed no in vivo DA D₂/D₃ receptor agonist action at DA autoreceptors. PD 58491 (3–30 mg/kg, i.p.) generally did not alter DA or serotonin synthesis in either the striatum or mesolimbic region of rat brain. The D₃-preferring agonist PD 128907 decreased DA synthesis in striatum and mesolimbic regions, and this effect was attenuated by pretreatment with PD 58491. These findings support the hypothesis that DA D₃ autoreceptors may in part modulate the synthesis and release of DA in striatum and mesolimbic regions.     

Differential Effects of D1 and D2 Dopamine Receptor Antagonists on Acute Amphetamine- or Methamphetamine-Induced Up-Regulation of zif/268 mRNA Expression in Rat Forebrain

Abstract: This study investigated the hypothesis that D₁ and D₂ dopamine receptors interact to regulate the expression of zif/268 mRNA in rat forebrain after an acute injection of amphetamine or methamphetamine. Forty-five minutes and 3 h after a single injection of amphetamine (4 mg/kg i.p.) or methamphetamine (4 mg/kg i.p.), the mRNA expression of zif/268 in dorsal striatum and sensorimotor cortex was increased, as revealed by quantitative in situ hybridization histochemistry. Induction was more intense in striatal patches at 45 min than at 3 h, when a more homogeneous pattern of zif/268 mRNA induction was observed. SCH 23390, a selective D₁ receptor antagonist, suppressed, and eticlopride, a D₂ receptor antagonist, elevated, constitutive zif/268 mRNA levels in the striatum, but neither antagonist had a significant effect on the constitutive expression of zif/268 in sensorimotor cortex. Pretreatment with SCH 23390 completely blocked the stimulant-induced zif/268 expression in striatum and partially blocked the stimulant-induced zif/268 expression in cortex. Pretreatment with eticlopride augmented zif/268 mRNA expression in patch and matrix compartments of dorsal and ventral striatum 45 min after amphetamine or methamphetamine injection. However, at 3 h, eticlopride completely blocked amphetamine- and methamphetamine-stimulated zif/268 mRNA in dorsomedial, but not dorsolateral, striatum. In addition, eticlopride partially blocked cortical zif/268 induction by both amphetamines. Both antagonists prevented stimulant-induced hyperlocomotion and stereotypies. These results demonstrate that D₁ and D₂ receptors in mesolimbic/mesostriatal pathways both regulate amphetamine-and methamphetamine-stimulated behaviors and zif/268 mRNA expression. Furthermore, the effect of D₂ receptor blockade on zif/268 expression was found to be contingent on the time interval investigated after psychostimulant administration.     

Effects of Cerebral Ischemia on Regional Dopamine Release and D1 and D2 Receptors

Abstract: To expand on the nature of regional cerebral vulnerability to ischemia, the release of dopamine (DA) and dopaminergic (D₁ and D₂) receptors were investigated in Mongolian gerbils subjected to bilateral carotid artery occlusion (15 min) alone or with reflow (1–2 h). Extracellular cortical and striatal content of DA and its metabolites was measured by microdialysis using HPLC with electrochemical detection. The kinetic properties of D₁ and/or D₂ receptor binding sites were determined in cortical and striatal membranes with the use of radiolabeled ligands (¹²⁵I-SCH23982 and [³H]YM-09151-2, respectively). The ischemic release of DA from the striatum was greater (400-fold over preischemic level) than that from the cortex (12-fold over preischemic content). The affinity for the D₁-receptor ligand was lower ( K _D= 1.248 ± 0.047 n M ) after ischemia than that for sham controls ( K _D= 0.928 ± 0.032 n M, p < 0.001). The number of binding sites for D₂ receptors decreased in striatum ( B _max= 428 ± 18.4 fmol/mg of protein) after ischemia compared with sham controls ( B _max= 510 ± 25.2 fmol/mg of protein, p < 0.05). D₁ or D₂ binding sites were not changed either in the ischemic cortex or postischemic striatum and cortex. The findings strongly suggest that the ischemic release of DA from striatum is associated with early transient changes in D₁- and D₂-mediated DA neurotransmission.     

D2 Receptor Antagonists Do Not Modify Guanine Nucleotide-Sensitive Interactions Between Dopamine and D1 Dopamine Receptors Under In Vitro Conditions

Abstract: This study investigated possible D₁/D₂ interactions in rat and bovine striatal tissue by examining the effects of D₂ antagonists on the action of dopamine at D₁ dopamine receptors. In addition, the extent to which D₂ antagonists may induce an agonist low-affinity state of the D₁ receptor was evaluated in comparison with the effects of the guanine nucleotide analogue 5′-guanylylimidodiphosphate [Gpp(NH)p]. In saturation experiments dopamine caused a dose-dependent decrease in rat striatal and bovine caudate D₁ receptor density. This effect of dopamine, which has been shown to be sensitive to Gpp(NH)p, was not altered by pretreatment with either of the selective D₂ antagonists eticlopride (200 nM) or domperidone (200 nM). Results from displacement experiments show that the affinity of dopamine for D₁ receptors and the proportion of receptors in an agonist high-affinity state, are reduced by Gpp(NH)p (100 µM) but not by eticlopride. A molar excess of dopamine (100 µM) promotes the dissociation of (±)-8-chloro-2,3,4,5-tetrahydro-3-methyl-5-phenyl-1H-3-benzazepine-7-ol ([³H]SCH 23390) from rat striatal D₁ receptors at a rate that is significantly slower than when dissociation is initiated using 1 µM piflutixol. After pretreatment with Gpp(NH)p, [³H]SCH 23390 dissociation induced by dopamine occurred at an even slower rate. Pretreatment with eticlopride had no effect on the dopamine-induced rate of [³H]SCH 23390 dissociation. These results indicate that all experimental approaches detected dopamine effects at D₁ receptors that are Gpp(NH)p sensitive and D₂ antagonist insensitive and provide no evidence to support a D₁/D₂ link operating at the receptor level.