Neurophysiological evidence that D-1 dopamine receptor blockade attenuates postsynaptic but not autoreceptor-mediated effects of dopamine agonists

The putatively selective D-1 dopamine receptor antagonist SCH 23390 was used to study the role of the D-1 dopamine receptor in mediating the pre- and postsynaptic effects of dopamine agonists in the basal ganglia. SCH 23390 (1 mg/kg) had no significant effect on the tonic activity of substantia nigra dopamine neurons in 47% of the 19 cells studied, while the firing rates of 53% of the cells were increased. SCH 23390 did not shift the dose response of these cells to apomorphine, whereas the selective D-2 antagonist, YM-09151-2 completely blocked apomorphine's inhibitory effects on nigral dopamine cell activity. These results suggest that SCH 23390 does not interact with the D-2 dopamine autoreceptors, but does excite a subpopulation of dopamine neurons presumably through postsynaptic actions. In contrast to its inability to modify the effects of apomorphine on dopamine autoreceptors, SCH 23390 partially to fully reversed the effects of apomorphine on globus pallidus and substantia nigra pars reticulata cell activity and significantly attenuated the effects of apomorphine, pergolide, quinpirole (LY 171555) and d-amphetamine on firing rates of globus pallidus neurons. The D-1 antagonist alone had no significant effect on tonic globus pallidus neuronal activity. SCH 23390 was more potent than haloperidol in its ability to attenuate the effects of apomorphine on pallidal activity, but unlike haloperidol, was unable to totally inhibit these effects, suggesting that the two antagonists block the excitatory effects of apomorphine on pallidal cell firing rates by different mechanisms. The serotonin2 receptor antagonist, ketanserin, had no effect on pallidal or dopamine cell activity, indicating that the effects of SCH 23390 were not mediated through interactions with serotonin2 receptors. These results suggest that D-1 receptor blockade attenuates the postsynaptic, but not autoreceptor-mediated effects of dopamine agonists.     

Topography of dopamine D-1 and D-2 receptor-mediated rotation after intrastriatal injections of dopamine-related drugs in normosensitive rats

Naive rats were challenged systematically with apomorphine after receiving unilateral dorsal or ventral intracaudate injections of the dopamine D-1 receptor antagonist, SCH23390, or the D-2 receptor antagonist, sulpiride. Sulpiride injections into both the dorsal and ventral striatum induced a robust ipsilateral rotation, while SCH23390 elicited a weaker ipsilateral rotation only on injection into the ventral striatum. Both drugs were ineffective in saline-treated rats, although sulpiride injections into the ventral striatum after systemic saline elicited a small ipsilateral preference. The results from this rotational model mediated by normosensitive receptors indicate that only dopamine D-1 receptors in the ventral striatum mediate rotation while D-2 receptors in both striatal regions mediate rotation. A functional dichotomy between these two neostriatal regions is thus proposed.     

Behavioural stimulation is induced by separate dopamine D-1 and D-2 receptor sites in reserpine-pretreated but not in normal rats

The dopamine (DA) D-1 agonist SK&F 38393 as well as the D-2 agonist pergolide and the mixed D-1/D-2 agonist apomorphine induced strong hypermotility and oral stereotypy in rats pretreated with a daily dose of reserpine for 2 and in particular for 4 days (3 and 5 injections, respectively). SK&F 38393 had no behavioural stimulant effect in saline-pretreated rats, whereas pergolide and apomorphine produced stimulation, although only after higher doses. Agonists at 5-HT and muscarinic receptors and at alpha 1-adrenoceptors were ineffective in reserpine-pretreated rats whereas the alpha 2-adrenoceptor agonist, clonidine, and the muscarinic antagonist, scopolamine, produced weak locomotor stimulation. The hypermotility induced by SK&F 38393 in reserpinized rats was blocked by pretreatment with the DA D-1 antagonists, SCH 23390 and SK&F 83566c, whereas the DA D-2 antagonists, YM 09151-2, clebopride and spiroperidol were weak or ineffective. In contrast pergolide-induced hypermotility was blocked by low doses of the D-2 antagonists but was weakly or not influenced by the D-1 antagonists. Selectivity ratios between drug potencies in the two models ranged from 65 to more than 600. The mixed D-1/D-2 antagonists, cis(Z)-flupentixol and cis(Z)-clopenthixol, blocked the effect of both SK&F 38393 and pergolide. The alpha 1-adrenoceptor antagonist, prazosin, and the 5-HT2 receptor antagonist, ketanserin, did not modify the effect of SK&F 38393 or pergolide. Stereotyped behaviour induced by a high pergolide dose in normal rats was, in contrast to the effect in reserpinized rats, blocked by low doses of either SCH 23390 or spiroperidol. Finally, the hypermotility induced by apomorphine in reserpinized rats was markedly antagonized by both SCH 23390 and spiroperidol. The results suggest a close relation between D-1 and D-2 receptor sites in normal rats. After prolonged reserpine treatment, the D-1 agonist acquires full DA agonist efficacy. Furthermore, behavioural stimulation under these conditions is mediated by two separate D-1 and D-2 receptor sites which can be manipulated independently by antagonists. The mechanism by which this phenomenon occurs is unknown but the adaptational changes show close similarities to those observed after 6-hydroxyDA-induced denervation.     

Differential involvement of dopamine D-1 and D-2 receptors in the circling behaviour induced by apomorphine,SK & F 38393, pergolide and LY 171555 in 6-hydroxydopamine-lesioned rats

The antagonistic effect of dopamine (DA) D-1 and D-2 antagonists against circling behaviour induced by various DA agonists in 6-OHDA-lesioned rats has been investigated. DA D-1/D-2 selectivity of agonists in vitro was measured by the stimulatory effect on DA-sensitive adenylate cyclase in rat striatal homogenates (D-1), the inhibitory effect on electrically-induced release of ³H-DA in rabbit striatal slices (D-2) and the affinity to ³H-piflutixol (D-1) and ³H-spiroperidol (D-2) binding sites in rat striatal membranes. The contralateral circling behaviour induced by the DA D-1 agonist SK & F 38393 was blocked by the DA D-1 antagonist, SCH 23390, and by the mixed DA D-1/D-2 antagonist cis(Z)-flupentixol, but was not influenced by the DA D-2 antagonists spiroperidol and clebopride. In contrast, circling behaviour induced by the preferential DA D-2 agonists pergolide and LY 171555 was blocked by clebopride, spiroperidol, and cis(Z)-flupentixol, but weakly or not influenced by SCH 23390. Apomorphine-induced circling behaviour was blocked by cis(Z)-flupentixol, partially antagonized by SCH 23390 and clebopride but not inhibited by spiroperidol, although the time-course of circling was changed. Combinations of SCH 23390 with spiroperidol or clebopride in low doses completely blocked the effect of apomorphine. These results indicate that DA D-1 and D-2 receptors mediate circling behaviour through separate mechanisms which can be independently manipulated with respective agonists and antagonists. Furthermore, the results indicate that both DA D-1 and D-2 receptors are involved in the effect of apomorphine, since selective antagonists induced maximally 50% inhibition. Complete blockade was only found in combination experiments and by the mixed D-1/D-2 antagonists cis(Z)-flupentixol, cis(Z)-clopenthixol, and clozapine.     

SCH 23390 antagonizes apomorphine- and ergot-induced hypothermia

The reportedly specific D-1 dopamine (DA) receptor antagonist SCH 23390 significantly reduced the hypothermia elicited by various DA receptor agonists like apomorphine, pergolide and lisuride. When tested against equihypothermic doses of each agonist, SCH 23390 significantly reduced the hypothermia elicited by apomorphine (0.2 mg/kg s.c.) and by pergolide (0.1 mg/kg i.p.) at doses of 0.025 mg/kg s.c. Doses of 0.050 mg/kg s.c. of SCH 23390 were necessary to reduce the hypothermia elicited by 0.012 mg/kg s.c. of lisuride. Pretreatment with the specific D-2 antagonist (-)sulpiride (50 mg/kg i.p.) completely prevented the hypothermia elicited by lisuride (0.012 mg/kg i.p.), pergolide (0.1 mg/kg i.p.) and apomorphine (0.2 mg/kg s.c.) and shifted to the right the dose-response curve for agonist-induced hypothermia. A study of the interaction between 0.05 mg/kg s.c. of SCH 23390 with various doses of the agonists showed that the effectiveness of SCH 23390 in antagonizing the hypothermia was maximal towards apomorphine and least towards lisuride for which significant antagonism was observed only against the lowest dose tested (0.012 mg/kg s.c.). The reportedly specific D-1 receptor agonist SKF 38393 given in doses up to 20 mg/kg i.p. or intracerebroventricularly up to 100 micrograms failed to influence body temperature while it evoked intense grooming and stimulated motility.     

Synergistic interaction between dopamine D-1 and D-2 receptor agonists: circling behaviour of rats with hemitransection

Circling behaviour induced by dopamine (DA) agonists with different D-1/D-2 receptor selectivity was studied in rats with hemitransection at a level caudal to the striatum. The mixed D-1/D-2 agonist apomorphine induced ipsilateral circling behaviour after administration of doses similar to those that induced stereotyped behaviour in unlesioned rats. The effect of apomorphine was not influenced by co-treatment with SK & F 38393 or quinpirole, indicating that apomorphine induces a comparable D-1 and D-2 receptor stimulation in vivo also. Three selective D-1 agonists, SK & F 38393, SK & F 75670 and Lu 24-040 had no effects alone, while the preferential D-2 agonists quinpirole, pergolide and (-)-N-propylnorapomorphine induced ipsilateral circling of weaker intensity than did apomorphine. After co-treatment with SK & F 38393 the effects of these compounds were markedly increased. Combination of SK & F 38393, SK & F 75670 or Lu 24-040 with quinpirole induced circling with intensities similar to those seen after apomorphine. Pretreatment with the D-1 antagonist SCH 23390 or the D-2 antagonist YM 09151-2 completely antagonized the ipsilateral circling induced by either apomorphine or quinpirole + SK & F 38393. A range of partial (autoreceptor) D-2 agonists, i.e. (-)-3-PPP, (+)-3-phenethyl-PP, terguride, EMD 23448 and B-HT 920 were all ineffective as was the alpha 2-adrenoceptor agonist clonidine. However, B-HT 920 induced strong ipsilateral circling after combination with SK & F 38393, whereas (-)-3-PPP was ineffective.(ABSTRACT TRUNCATED AT 250 WORDS)     

SCH 23390 and its S-enantiomer stereoselectively prevent EEG and behavioral activation induced by dopamine agonists in the rabbit

The selective D-1 dopamine antagonist SCH 23390 (R-enantiomer) and its unselective S-enantiomer (SCH 23388) were compared for their ability to prevent EEG and behavioral activation induced by the dopamine receptor agonists SKF 38393, apomorphine and LY 171555 in the rabbit. SCH 23390, at very low doses (0.003 mg/kg IV), inhibited EEG responses elicited by SKF 38393 and apomorphine, while the S-enantiomer displayed similar effects at doses at least 300-fold higher (1-3 mg/kg IV). Both isomers were approximately equipotent in preventing behavioral excitation caused by the D-2 agonist LY 171555. The dose of SCH 23390 interacting with LY 171555 was at least 100-fold higher than that effective for D-1 mediated responses. Conversely, the doses of S-enantiomer which prevented the stimulating effects induced by the different dopamine agonists were similar. The data demonstrate the stereoselectivity of the R-isomer SCH 23390 for blockade of D-1 receptors in vivo and provide evidence for the sensitivity of the EEG models in studying D-1 mediated responses.     

Motor activity following the administration of selective D-1 and D-2 dopaminergic drugs to normal common marmosets

In normal common marmosets administration of the D-1/D-2 agonist apomorphine or the selective D-2 agonist quinpirole caused a dose-dependent increase in motor activity and induced stereotyped behaviour. Both the selective D-2 antagonist raclopride and the selective D-1 antagonist SCH 23390 inhibited normal locomotor activity and induced catalepsy. Quinpirole- and apomorphine-induced motor activity were potently inhibited by pretreatment with raclopride. The effects of quinpirole, but not apomorphine, were weakly inhibited by SCH 23390. The selective D-1 partial agonist SKF 38393 decreased motor activity and did not induce grooming, oral movements or other behaviours. SKF 38393 inhibited motor activity induced by the administration of quinpirole but did not alter apomorphine-induced motor behaviour. Locomotor activity in normal common marmosets appears to be mediated mainly via D-2 systems. In contrast to rodents, administration of SKF 38393 does not induce behavioural activation and there does not appear to be a facilitating effect of D-1 systems on D-2 function in the normal common marmoset. However, the ability of both SKF 38393 and SCH 23390 to inhibit quinpirole locomotor activity suggests some interaction between D-1 and D-2 systems to occur in this species.     

Influences of dopamine receptors on chewing behaviour in rats.

1. Intraperitoneal (i.p.) injection of different doses of pilocarpine induced purposeless chewing in rats. Physostigmine (i.p.), but not neostigmine (i.p.) also induced chewing behaviour. 2. Subcutaneous (s.c.) pretreatment of animals with the D-1 receptor blocker SCH 23390 decreased the number of chews induced by pilocarpine. 3. The D-2 dopamine antagonist sulpiride (i.p.) and anticholinergic atropine (i.p.) pretreatment also decreased the frequency of chews induced by the drug. 4. The response induced by pilocarpine (1 mg/kg i.p.) also was dose-dependently decreased in animals pretreated with apomorphine (0.25-1 mg/kg s.c.). 5. Administration of low doses of apomorphine (s.c.) also induced chewing, which was decreased with increasing the doses of the drug. 6. Chewing-induced by apomorphine was decreased by sulpiride or atropine and increased by SCH 23390 pretreatment. 7. Single administration of D-2 dopamine agonist bromocriptine also showed a slight but significant purposeless chewing, which was decreased by sulpiride pretreatment. 8. Single administration of D-2 agonist quinpirole, D-1 agonist SKF 38393 or D-1 antagonist SCH 23390, but not sulpiride caused a slight chewing. 9. It may be concluded that D-1 or D-2 activation exert opposite influences on chewing behaviour in rats, although to prove this effect more elucidation is needed.     

The effects of selective dopamine receptor agonists and antagonists on body temperature in rats

Body temperature was measured at repeated time intervals following the administration of various dopamine agonists and antagonists. The D-1 and D-2 receptor agonist, apomorphine, produced dose-dependent hypothermia. This effect was inhibited by the D-2 receptor antagonist, spiroperidol. Stimulation of D-2 receptor by LY171555 produced dose-dependent hypothermia, which was attenuated by pretreatment with spiroperidol and not altered by the D-1 receptor antagonist SCH23390. The D-1 receptor agonist, SK&F38393 had no effect on body temperature. SCH23390 administered alone produced initial hyperthermia and subsequent hypothermia. When administered with apomorphine, SCH23390 both attenuated and potentiated the hypothermic response, depending on the dose and time of administration of each drug. The results suggest that dopamine receptor agonists induce hypothermia by stimulation of the D-2 receptor subtype.     

SCH 23390 may alter dopamine-mediated motor behaviour via striatal D-1 receptors

SCH 23390 potently displaced the specific binding of 3H-piflutixol to D-1 sites in striatal membranes but haloperidol was only weakly effective. SCH 23390 weakly displaced specific 3H-spiperone binding to D-2 sites, but haloperidol was potent. SCH 23390 was more effective than haloperidol in inhibiting dopamine stimulated striatal adenylate cyclase activity. These results confirm the D-1 selectivity of SCH 23390. However, SCH 23390 inhibited apomorphine-induced stereotypy and climbing behaviour in rats with equal potency to haloperidol. Haloperidol dose-dependently increased striatal HVA and DOPAC concentrations without altering dopamine content. Low doses of SCH 23390 elevated striatal DOPAC concentrations but higher doses were without effect; striatal dopamine and HVA overall was unaffected by administration of SCH 23390. Haloperidol did not affect basal 3H-acetylcholine release from striatal slices but reversed the apomorphine-induced inhibition of 3H-acetylcholine release. SCH 23390 did not affect basal 3H-acetylcholine release nor did it reverse the apomorphine-induced inhibition of 3H-acetylcholine release. The ability of SCH 23390 to inhibit motor behaviour in the rat may be due to its action on D-1 receptors since the drug does not cause typical changes in parameters of striatal D-2 receptor function.     

Synergistic effects between D-1 and D-2 dopamine antagonists on catalepsy in rats

The effect of selective D-1 and D-2 dopamine agonists on catalepsy induced by various dopamine antagonists was studied. A potent and selective D-2 antagonist, YM-09151 (YM-09151-2) at a dose of 1.2 mg/kg, SC and a selective D-1 antagonist, SCH 23390 at 1.0 mg/kg, SC induced catalepsy in rats. Mixed D-1/D-2 antagonists, haloperidol (HPD) and cis-flupentixol (FLU) also induced catalepsy at doses of 2.0 and 0.8 mg/kg, SC, respectively. A mixed D-1/D-2 agonist, apomorphine (1.0 mg/kg, SC), a selective D-2 agonist, bromocriptine (10 mg/kg, IP) and a muscarinic antagonist, scopolamine (1.0 mg/kg, SC), prevented or markedly reduced the incidence of catalepsy by the tested antagonists. In contrast, a selective D-1 agonist, SKF 38393 (4.0 mg/kg, SC) did not reduce the cataleptogenic effects of HPD, FLU and SCH 23390, but did reduce the effect of YM-09151. Moreover, co-administration of YM-09151 with SCH 23390 produced a marked increase in the incidence of catalepsy. The incidence seen after the combination of YM-09151 and SCH 23390 at low doses was significantly different from that seen after each drug alone at the doubled dose. Thus, D-1 and D-2 antagonists potentiated each other's effect in producing catalepsy. These results suggest an important role of both D-1 and D-2 receptors in the catalepsy and the existence of synergistic effects of D-1 and D-2 receptor blockade.     

Motor activity following the administration of selective D-1 and D-2 dopaminergic drugs to MPTP-treated common marmosets

The ability of selective D-1 agonist and antagonist drugs to alter motor deficits and locomotor activity was studied in MPTP-treated common marmosets. Both the D-2 agonist quinpirole and the mixed D-1/D-2 agonist apomorphine reversed the motor impairments and induced locomotor activity. The D-1 antagonist SCH 23390 and the D-2 antagonist raclopride given alone further reduced motor function in MPTP-treated animals. The actions of quinpirole were potently and completely inhibited by raclopride but only partially and inconsistently by SCH 23390. In contrast, the effects of apomorphine were markedly but incompletely inhibited by both raclopride and SCH 23390. The D-1 agonist SKF 38393 alone caused a dose related reduction in motor activity. SKF 38393 weakly and partially inhibited the improvements in motor function produced by quinpirole but had a more pronounced effect on apomorphine induced motor activity. The induction of motor activity in MPTP treated common marmosets may separately involve both D-1 and D-2 receptors. Comparison with our previous data on the effect of the same drugs in normal common marmosets provides some evidence for a breakdown of linkage between D-1 and D-2 systems following MPTP treatment. The actions of SKF 38393 in MPTP-treated common marmosets contrasts with its ability to induce behavioural activation and a facilitation of D-2 mediated behaviour in rodents. SKF 38393 may not be the compound with which to delineate the role of D-1 receptors in primates.     

Evidence that apomorphine and pergolide induce rotation in rats by different actions on D1 and D2 receptor sites

Apomorphine and the ergot derivative pergolide induced dose-dependent contralateral rotation in rats with unilateral 6-hydroxydopamine denervation of the ascending dopamine pathways. This was interpreted as an action on supersensitive receptors. However, large differences were found when comparing apomorphine and pergolide dose-response curves as well as the patterns of rotational behaviour the compounds elicited. Pergolide had a steep dose-response curve, while apomorphine had a flatter curve reaching a plateau at the dose of 1 mg/kg s.c. In doses higher than 1 mg/kg, apomorphine induced self-mutilation, while this was infrequent after pergolide. Apomorphine induced a two-peak pattern of rotation that never occurred when the same rats were tested with the ergot derivative. Both drugs induced dose-dependent ipsilateral rotation in animals with unilateral striatal kainic acid lesions but at doses 100 times higher. This effect was interpreted as an action on normosensitive receptors situated on the intact side. The differences between apomorphine and pergolide may be explained in terms of actions on different dopamine receptors, since the agonists were differently inhibited by neuroleptics acting on D1- or D2-type receptors. The D1/D2 antagonist cis-flupenthixol blocked both apomorphine and pergolide with similar potency, while sulpiride, a substituted benzamide devoid of any effect on D1 receptors, was a poor inhibitor of the apomorphine response. In contrast, sulpiride blocked pergolide rotation at doses 1000 times lower than those needed to block apomorphine rotation. Our results suggest the existence of functionally distinct sites related to the D1/D2 receptor classification.     

Differential inhibition by dopamine D-1 and D-2 antagonists of circling behaviour induced by dopamine agonists in rats with unilateral 6-hydroxydopamine lesions

The selective dopamine (DA) D-1 antagonist SCH 23390 antagonized the contralateral circling behaviour induced by the DA D-1 agonist SK & F 38393 in rats lesioned unilaterally with 6-hydroxy-DA but had a 600 times weaker effect against the preferential DA D-2 agonist pergolide. The D-2 antagonists clebopride and spiroperidol had the reverse selectivity. The mixed D-1/D-2 antagonists cis(Z)-flupentixol and cis(Z)-clopenthixol blocked the circling induced by either agonist. It is concluded that circling behaviour is mediated by closely related but independent DA D-1 and D-2 receptor sites.     

The role of multiple dopamine receptors in apomorphine and N-n-propylnorapomorphine-induced climbing and hypothermia

Apomorphine and N-n-propylnorapomorphine (NPA) were compared for their ability to induce stereotyped cage climbing and hypothermia in mice. Climbing behavior was produced by similar doses of apomorphine and NPA (0.625-2.5 mg/kg s.c.), whereas NPA was 43 times more potent than apomorphine in inducing a hypothermic response. SKF38393 caused a shift to the left in the dose-response curve for NPA-induced climbing, the ED50 changing from 0.98 to 0.014 mg/kg. SKF38393 had no effect on apomorphine-induced climbing behaviour. The climbing response produced by apomorphine was antagonised by both D-1 and D-2 antagonists. Climbing behaviour induced by NPA (2.5 mg/kg) could be antagonised by SCH23390 but not by clebopride, however climbing behaviour induced by a low dose of NPA (0.06 mg/kg) plus SKF38393 could be blocked by both D-1 and D-2 receptor antagonists. The hypothermic responses produced by either apomorphine or NPA could only be reversed by the selective D-2 antagonist, clebopride. These results demonstrate that dopamine agonist-induced stereotyped cage climbing requires both D-1 and D-2 receptor stimulation, whereas the hypothermic response is D-2-mediated. The results also show that it is possible to assess the relative activity of a dopamine agonist at D-1 or D-2 receptors in vivo by comparing the ability of the compound to induce hypothermia and climbing behaviour.     

Characterization of dopamine receptors involved in apomorphine-induced pecking in pigeons.

1. The possible involvement of subtypes of dopamine-receptors in apomorphine induced pecking was studied in pigeons. Different doses of apomorphine induced pecking in pigeons which was dose-dependent. 2. The response was decreased by SCH 23390 (D-1 antagonist) or high doses of sulpiride (D-2 antagonist) pretreatment, but increased by lower doses of sulpiride. 3. Combination of SCH 23390 with sulpiride completely antagonized the apomorphine effect. 4. Single dose administration of SKF 38393 (D-1 agonist) or bromocriptine (D-2 agonist) and combination of these drugs did not induce pecking, although either SK 23390 or bromocriptine increased the apomorphine-induced pecking which was decreased by SCH 23390 or sulpiride pretreatment. 5. It may be concluded that pecking, induced by apomorphine in pigeons, is elicited through activation of both D-1 and D-2 dopamine-receptors.     

Effects of the dopamine D-1 antagonist SCH 23390 on water intake, water-rewarded operant responding and apomorphine-induced decrease of water intake in rats

The specific dopamine (DA) D-1 receptor antagonist SCH 23390 was found to attenuate operant lever-pressing with water as reward in a dose-dependent manner and more potently than drinking itself. This effect occurred in the same fashion as previously reported for DA D-2 antagonists. In contrast to the DA D-2 antagonist haloperidol, the attenuated operant lever-pressing induced by the DA D-1 antagonist SCH 23390 was not counteracted by the anticholinergic drug scopolamine. The decreased water intake in thirsty animals caused by a low dose of apomorphine was not antagonised by SCH 23390. This has previously been found with DA D-2 antagonists, such as haloperidol and sulpiride. The results show that in spite of some similarities in the behavioural effects of DA D-1 and D-2 antagonists, a closer pharmacological analysis is able to reveal pronounced differences.     

Bromocriptine requires D-1 receptor stimulation for the expression of sniffing behaviour in rats

The effect of the mixed D-1/D-2 dopamine agonist apomorphine, the D-2 agonist bromocriptine and the D- 1-selective dopamine agonist SKF 38393 on sniffing behaviour in rats was tested in the present experiments. Apomorphine induced a dose-dependent sniffing, which was decreased by either D-2 or D-1 dopamine antagonist pre-treatment. Atropine (antimuscarinic drug) or phenoxybenzamine and propranolol (α and β- adrenergic blockers, respectively) did not alter the apomorphine response. Apomorphine induced a significant increase in sniffing in reserpine-treated animals. Bromocriptine produced sniffing during the 3rd hour after drug injection. The effect was decreased by sulpiride or SCH 23390 pre-treatment. Phenoxybenzamine or propranolol did not change the bromocriptine effect, while atropine increased the drug response. SKF 38393 also induced a slight but significant sniffing. In rats pre-treated with reserpine, neither bromocriptine nor the D-1-selective agonist SKF 38393 produced any sniffing. However, the combination of bromocriptine with SKF 38393 produced an intense sniffing behaviour. It may be concluded that bromocriptine requires D-1 receptor stimulation for the expression of sniffing.     

Effect of dopamine D-1 and D-2 receptor selective drugs on dopamine release and metabolism in rat striatum in vivo

Summary The effect of the dopamine (DA) D-1 agonist SKF 38393, the D-2 agonist LY 171555 and the mixed D-1/D-2 agonist apomorphine on striatal DA release and metabolism was tested in vivo using an intracerebral dialysis method in halothane-anaesthetized rats. The specificity of responses to these agonists was tested using the selective DA antagonists SCH 23390 (D-1) and sulpiride (D-2).Both LY 171555, 0.01 mg/kg, and SKF 38393, 10 mg/kg, reduced levels of DA in striatal perfusates. Neither SCH 23390, 0.5 and 5 mg/kg, nor sulpiride, 10 mg/kg, affected levels of DA in striatal perfusates, but 250 mg/kg sulpiride caused a DA increase. The decrease of DA levels induced by LY 171555 (0.01 mg/kg) was prevented by pretreatment with sulpiride (10 mg/kg) but not SCH 23390 (0.5 mg/kg). In comparison, pretreatment with SCH 23390 (0.5 mg/kg) completely inhibited the reduction of DA induced by SKF 38393 (10 mg/kg) while sulpiride (10 mg/kg) was without effect. Apomorphine (0.05 mg/kg) also decreased DA in striatal perfusates and this action was partially inhibited by both SCH 23390 (0.5 mg/kg) and sulpiride (10 mg/kg).Levels of the DA metabolite DOPAC in striatal perfusates also significantly decreased following LY 171555 (0.01 mg/kg) and apomorphine (0.05 mg/kg) but not SKF 38393 (10 mg/kg). The antagonist SCH 23390, in a dose, 0.5 mg/kg, that alone did not increase levels of DOPAC, inhibited the reduction of DOPAC induced by both LY 171555 and apomorphine. Sulpiride, 10 mg/kg, caused a marked increase in striatal DOPAC and this was not affected by a subsequent injection of LY 171555, SKF 38393 or apomorphine.We conclude from these data that DA release in rat striatum is autoregulated by independent D-1 and D-2 receptor-linked mechanisms. In contrast, the level of DA metabolism is controlled by a D-2 receptor-coupled mechanism which can be influenced by the D-1 receptor. This study provides further evidence that DA release and DA synthesis/metabolism are able to change independent of each other.