Effects of dopamine D1 and D2 receptor agonists and antagonists on bombesin-induced behaviors

Central administration of bombesin elicits excessive grooming and locomotor activity in rats. This grooming activity is one characterised by vigorous scratching of the face, nape and body flanks. Pretreatment with the D1 receptor antagonist SCH 23390 inhibited the expression of bombesin-induced activity with grooming being more inhibited than locomotion. Blockade of D2 receptors with eticlopride significantly attenuated the behavioral responses to bombesin. When SCH 23390 and eticlopride were administered concurrently, it was apparent that D1 blockade had a greater effect on grooming and D2 blockade a larger effect on locomotion. Stimulation of D1 receptors by SKF 38393 elicited non-stereotyped locomotor activity and a form of grooming behavior characterised by vigorous washing of the face and ventral body surfaces. Co-administration of bombesin and SKF 38393 resulted in a form of grooming which resembled that elicited by SKF 38393 alone. The specific D2 agonist PPHT elicited a form of locomotion characterised by a downward oriented head posture and slow ambulatory activity around the cage perimeter. Co-administration of PPHT and bombesin resulted in a complete suppression of bombesin-induced behaviors and was largely indistinguishable from activity observed under PPHT alone conditions. These data implicate both D1 and D2 receptor based mechanisms in the modulation/mediation of the behavioral effects of bombesin. Part of the bombesin-induced behavioral effects may be explained by (indirect) activation of (a) dopamine system(s).     

The induction of grooming and vacuous chewing by a series of selective D-1 dopamine receptor agonists: two directions of D-1:D-2 interaction

A range of 3- and 6-substituted 1-phenyl-1H-3-benzazepine analogues of SK & F 38393 with D-1 agonist activity were compared for their behavioural effects in the intact adult rat and for their relative affinities for D-1 and D-2 dopamine receptors in vitro. All compounds showed selective affinity for D-1 receptors and induced prominent grooming behaviour, but those with the lower D-1: D-2 selectivity ratios also induced additional episodes of non-stereotyped sniffing, locomotion and rearing. No vacuous chewing was noted. There were marked differences in in vivo potency, extending over a 100-fold range. These responses to the most potent agonist, SK & F 77434 (3N-allyl-SK & F 38393) were reduced enantioselectively by the D-1 antagonist R-SK & F 83566. They were also reduced enantioselectively by the D-2 antagonist R-piquindone, but this pretreatment additionally released a marked vacuous chewing response to SK & F 77434. Prominent grooming may be a characteristic behavioural response to a range of D-1 agonists. It is suggested that there may be at least two forms of functional interaction between D-1 and D-2 systems, manifested concurrently in distinct elements of behaviour: one co-operative, as in the regulation of grooming, and with correlates in the regulation of pallidal neural activity; the other oppositional, as in the regulation of vacuous chewing, and with correlates in the regulation of striatal adenylate cyclase activity.     

Modulatory effects of dopamine D3/2 agonists on kappa opioid-induced antinociception and diuresis in the rat

RATIONALE: The dopamine (DA) D3/2 agonist 7-OH-DPAT has been shown to attenuate the behavioral effects of the mu agonist morphine as well as the development of morphine tolerance. OBJECTIVES: To evaluate the effects of DA D3/2 agonists [7-OH-DPAT, (+)-PD128,907, quinelorane, (-)-quinpirole], a D1 agonist (SKF38393), a D1 antagonist [(+)-SCH23390], a DA antagonist (spiperone), and an indirect DA agonist (cocaine) on the antinociceptive effects of kappa agonists (spiradoline, U69,593, bremazocine) as well as the effects of D3/2 agonists on the diuretic effects of spiradoline. METHODS: Antinociception was determined using a warm water (50-55 degrees C) tail-withdrawal procedure and urine output was collected over a 2-h interval. RESULTS: The antinociceptive effects produced by the kappa agonists varied with the intensity of the nociceptive stimulus (water), as maximal or near maximal effects were obtained with spiradoline at 55 degrees C, U69,593 at 52 degrees C, and bremazocine at 50 degrees C water. 7-OH-DPAT produced a dose-dependent attenuation of the antinociceptive effects of spiradoline, U69,593, and bremazocine. Spiperone completely reversed the effects of 7-OH-DPAT on spiradoline antinociception. (+)-PD128,907 and quinelorane, but not (-)-quinpirole or the other DAergic agents examined, attenuated the antinociceptive effects of spiradoline in a dose- and time-dependent manner. The diuretic effects of spiradoline were attenuated by 7-OH-DPAT, (+)-PD128,907, quinelorane, and (-)-quinpirole, and this attenuation was reversed by spiperone. CONCLUSIONS: The present study demonstrated that some D3/2 agonists can modulate both the antinociceptive and diuretic effects of kappa agonists. These modulatory actions are similar to those obtained against the effects of mu agonists.     

Effects of dopamine D1 and dopamine D2 receptor agonists on coronary and peripheral hemodynamics

This study evaluated the coronary dopamine receptors by using the dopamine D1 receptor agonist fenoldopam, dopamine D2 receptor agonist propylbutyldopamine, and their selective antagonists SCH23390 and domperidone. Left circumflex coronary flow (CF), coronary perfusion pressure at constant flow, left ventricular hemodynamics, and total peripheral vascular resistance (TPR) were measured in pentobarbital-anesthetized dogs at constant arterial pressures. At doses of 200, 500 and 5000 nM, both fenoldopam and propylbutyldopamine induced dose-related inotropic effects, as evidenced by maximal dp/dt and cardiac output, an increase in CF, decrease in coronary vascular resistance and a decrease in TPR. Fenoldopam was more potent in its cardiac and coronary effects while propylbutyldopamine was more potent peripherally. On the basis of dosage used, the positive inotropic effects of fenoldopam and propylbutyldopamine were much weaker than dopamine. After beta-receptor blockade, the inotropic and coronary effects of fenoldopam and propylbutyldopamine were extremely attenuated. Domperidone could largely antagonize the propylbutyldopamine-induced inotropic and coronary effects while SCH23390 showed no significant effect. In addition, under our experimental conditions, the fenoldopam- and propylbutyldopamine-induced decreases in TPR were markedly reduced by SCH23390 and domperidone, respectively. The results indicate that the coronary effects of fenoldopam and propylbutyldopamine result not from a primary coronary vasodilating action, but from vasodilation secondary to positive inotropic effects. Both dopamine D1 and dopamine D2 receptors are involved in the peripheral vascular hemodynamics.     

Discriminative stimulus effects of spiradoline,a kappa-opioid agonist

This study represents the initial step in assessing the discriminative effects of spiradoline (U62,066), a potent congener of the selective kappa-opioid agonist, U50,488. Separate groups of rats were trained to discriminate between SC injections of saline and either 3.0 mg/kg spiradoline or 3.0 mg/kg morphine in a discrete-trial shock-avoidance/escape procedure. Spiradoline-trained rats generalized completely to U50,488 (ED₅₀s for spiradoline and U50,488 were 0.66 and 8.71 mg/kg, respectively), but selected the choice lever appropriate for saline in generalization tests with graded doses of morphine, phencyclidine, and agonist-antagonist opioids with varying degrees of kappa activity, ethylketocyclazocine, nalorphine, and butorphanol. Morphine-trained rats did not generalize to spiradoline. Naltrexone (0.01 or 0.1 mg/kg) blocked surmountably the discriminative effects of both spiradoline and morphine, but was approximately 10-fold less potent against spiradoline. These results indicate that the discriminative effects of spiradoline are mediated by kappa-opioid receptors; meaningful mu-opioid and PCP/sigma components of action were not in evidence. The potency and apparent pharmacological selectivity of spiradoline suggest the potential value of this drug for studying kappa-opioid-mediated stimulus control of behavior.     

Reversal of methamphetamine-induced behavioral sensitization by repeated administration of a dopamine D1 receptor agonist

Repeated intermittent administration of methamphetamine (MAP) produces an enduring hypersensitivity to the motor stimulant effect of MAP, termed behavioral sensitization. Dopamine plays a critical role in the development and expression of behavioral sensitization. Here, we investigated whether a dopamine D₁ receptor agonist could reverse behavioral sensitization to MAP. Administration of MAP (1.0 mg/kg, i.p.) to rats once every 3 days for a total of 5 times (days 1–13) induced the enhancement of locomotor activity after MAP challenge (0.5 mg/kg, i.p.) on day 20, verifying the development of behavioral sensitization. The MAP-sensitized rats then received a dopamine D₁ agonist, R-(+)-SKF38393 (3.0 mg/kg, i.p.), once a day for 7 consecutive days (days 21–27). Behavioral analysis on days 30 and 41 revealed that the enhanced locomotor activity was reversed by repeated R-(+)-SKF38393 administration. Moreover, repeated R-(+)-SKF38393 administration reversed the increased dopamine release in the striatum after MAP challenge on day 41. Thus, repeated administration of the dopamine D₁ receptor agonist induces the reversal of established behavioral sensitization to MAP and of increased dopamine release in the striatum, lasting for at least 2 weeks. Dopamine D₁ receptor agonists may be useful therapeutic agents for the treatment of psychostimulant addiction.     

Changes in dopamine agonist and antagonist activity floowing temporary inactivation of the neostriatum

Summary Changes in drug-induced catalepsy and stereotyped behaviour were investigated in the rat following the intrastriatal application of 1 l 25% w/v KCl which was shown to reduce striatal electrical activity. The unilateral or bilateral application of KCl to normal animals caused contralateral circling or stereotyped biting and gnawing respectively. These effects were differentiated from injection artifact. The cataleptic actions of haloperidol, fluphenazine, loxapine, oxypertine or metaclopramide were modified biphasically by bilateral intrastriatal KCl: catalepsy was initially reversed and stereotypy developed but, subsequently, catalepsy was intensified. Unilateral injections of KCl also reversed catalepsy and marked contralateral circling activity developed. These actions of intrastriatal KCl, both in normal and cataleptic animals, were abolished by lesions of the substantia nigra. RS 86 catalepsy was potentiated both by uni-and bilateral intrastriatal injections of KCl whilst similar injections failed to modify the depressant effects of IB 503, chloral hydrate, diazepam, clozapine or a combination of reserpine/-methyl-ptyrosine. Morphine catalepsy was modified by intrastriatal KCl more in the manner of the stereotypic agents (D-and L-amphetamine, apomorphine, methylphenidate, ET 495), this being the production of ipsilateral circling following unilateral KCl or the induction of a state of immobility following bilateral injections (concomitant with antagonism of stereotypy or enhancement of morphine catalepsy). The mild stereotypic and tremorogenic activities of amantadine and NBT I were unmodified by intrastriatal KCl. Similarly, bilateral KCl failed to modify the abnormal motor movements observed after an L-Dopa/nialamide pretreatment, although a contralateral asymmetry was recorded following unilateral injections. The actions of intrastriatal KCl upon D-amphetamine stereotypy were mimicked by the cortical application of KCl at times prior to passage of the spreading depression to the striatal area. However, at similar times, the effects of intrastriatal KCl on normal animal behaviour or upon haloperidol catalepsy were not reproduced by KCl applied to the cortex.Results are discussed in terms of the neostriatal dopaminergic mechanisms involved in the mediation of the behavioural effects used as the bases of tests for antiparkinson and neuroleptic agents.     

The kappa-opioid receptor agonist spiradoline differentially alters the rotational response to dopamine D1 and D2 agonists.

The effect of the selective kappa-opioid agonist, spiradoline, on rotational behavior induced by a dopamine D1 or D2 agonist was examined in rats with a unilateral 6-hydroxydopamine lesion of the nigrostriatal pathway. Spiradoline reduced the rotational response to the D1 agonist SKF 38393 in a dose-dependent manner. Spiradoline had no effect on the total number of turns elicited by the D2 agonist quinpirole, but did alter the pattern of quinpirole-induced rotation at the highest dose tested. By itself, spiradoline did not have any obvious effects on motor behavior and did not cause rotation in either the ipsilateral or contralateral direction. These data suggest that kappa receptor stimulation, possibly mediated by the endogenous agonist dynorphin under physiological conditions, may function to dampen striatal output through the D1 receptor-regulated striatonigral pathway.     

The anorectic effect of SK&F 38393, a selective dopamine D1 receptor agonist: a microstructural analysis of feeding and related behaviour

An observational study was undertaken to provide a microstructural analysis of the effects of the selective dopamine D₁ receptor agonist, SK&F 38393, on feeding and associated behaviours in the rat. Adult, male non-deprived rats were adapted to eating a meal of sweetened mash in a 30-min period. SK&F 38393 (3.0 and 10 mg/kg, SC) significantly reduced food consumption). It also reduced the frequency of feeding bouts and the local rate of eating, while there was an increase, at 10 mg/kg, in the mean duration of individual feeding episodes. The D₁ receptor agonist also reduced the total duration of locomotor activity, but did not affect the total duration of rearing, grooming, sniffing, oral behaviours (other than feeding), or resting. The frequency of bouts of locomotion, rearing, grooming, and sniffing were reduced by SK&F 38393. Consideration of the time-courses for the several responses suggested that SK&F 38393 did not materially affect the form and sequence of behavioural responses in the test, although some changes occurred.     

Effects of selective dopamine D1- and D2-type receptor antagonists on the development of behavioral sensitization to 7-OH-DPAT

The primary objective of this study was to determine whether the development of behavioral sensitization to the putative dopamine D₃ receptor agonist 7-OH-DPAT could be prevented by either selective D₁-type or D₂-type dopamine receptor antagonists. In three experiments, male Wistar rats (250–350 g) were given seven to nine injections (at 48-h intervals) of 7-OH-DPAT (1.0 mg/kg, SC) or vehicle in combination with the D₂-type dopamine antagonist eticlopride (0.3 mg/kg, SC), the D₁-type dopamine antagonist SCH 23390 (0.1 or 0.2 mg/kg, SC), or vehicle. After the injections, the rats were tested for locomotor activity in photocell arenas for 2 h. In the first two experiments, after seven injections, all rats were tested for activity following vehicle injections to test for possible conditioning effects. In each experiment, after the last pre-exposure session, all rats were given a challenge injection of 7-OH-DPAT (1.0 mg/kg, SC) and tested for activity. Major findings were as follows: a) 7-OH-DPAT treatments produced a progressively greater increase in locomotor activity with repeated treatment; b) concurrent treatment with eticlopride or SCH 23390 (0.1 and 0.2 mg/kg) blocked the acute locomotor-activating effects of 7-OH-DPAT across days; c) eticlopride, but not SCH 23390, completely blocked the development of behavioral sensitization to 7-OH-DPAT. Although the low dose of SCH 23390 (0.1 mg/kg) produced a partial attenuation of sensitization, the higher dose (0.2 mg/kg) of SCH 23390 appeared to augment, rather than block, sensitization to 7-OH-DPAT; d) rats previously treated with SCH 23390 (0.2 mg/kg, but not 0.1 mg/kg) without 7-OH-DPAT displayed a hyperactive response to the 7-OH-DPAT challenge injection; and e) after vehicle injections, rats previously given 7-OH-DPAT, SCH 23390, or eticlopride either alone or in combination were more active than vehicle control rats. These findings suggest that the neurochemical mechanisms mediating the development of behavioral sensitization to 7-OH-DPAT may differ from those of other dopamine D₂-type agonists such as quinpirole or bromocriptine. Moreover, these results demonstrate that hyperactivity responses following vehicle injections in drug-pretreated animals do not necessarily reflect conditioning mechanisms. Received: 28 May 1997/Final version: 2 April 1998     

Effects of 5-HT-1A receptor agonists on CRF-induced behavior

Buspirone (2.0 or 4.0 mg/kg) and 8-hydroxy-2-(di-N-propylamino)-tetralin (8-OH-DPAT) (0.25 or 0.5 mg/kg) were used to examine the effects of serotonin 1A receptor agonists on the behavioral response of rats to centrally administered corticotropin-releasing factor (CRF). Behavioral observations were done with animals in their home cages. Parameters measured included locomotor activity, grooming and food consumption. CRF alone increased locomotor activity. 8-OH-DPAT also increased locomotion in both saline control and CRF-treated rats. Buspirone had no effect on basal locomotion or on CRF-induced hyperactivity. Both buspirone and 8-OH-DPAT antagonized CRF-induced grooming. Food consumption by fasted rats was suppressed by ICV CRF. 8-OH-DPAT suppressed eating by both ICV CRF and ICV saline-treated animals, while buspirone was without effect. These results demonstrate differences between the two putative 5-HT-1A agonists in their effects on CRF-induced behavior but also demonstrate that both suppress CRF-induced grooming.     

Potentiation of haloperidol-induced catalepsy by dopamine agonists: possible involvement of central 5-hydroxytryptamine

Apomorphine (0.12--2 mg/kg, SC) and d-amphetamine (1--8 mg/kg, IP) were each able, at certain doses, to potentiate the cataleptic state produced by the neuroleptic agent, haloperidol (1 mg/kg, IP). In subsequent biochemical experiments, in which the effects of combinations of apomorphine or d-amphetamine and haloperidol on brain monoamine levels were studied, this behavioural observation was seen to be related to an enhanced utilisation of 5-hydroxytryptamine (5-HT) in certain brain regions. The results suggest not only the possible involvement of 5-HT in the production of catalepsy, but also that the effects of these 'classical' dopamine agonists on other central transmitter systems should be considered when interpreting their various behavioural responses.     

Differential ability of D1 and D2 dopamine receptor agonists to induce and modulate expression and reinstatement of cocaine place preference in rats

Rationale D1-Like agonists are self-administered by drug-naive animals, whereas D2-like agonists reinstate cocaine-seeking behavior, but the rewarding and reinstating effects of D1- and D2-like agonists in pavlovian-based conditioned place preference are equivocal. Objective To compare the ability of D1 and D2 agonists to produce conditioned place preference with their modulation of expression and reinstatement of an established cocaine place preference. Methods Using an unbiased procedure, we measured the place preference induced by the D1 receptor agonist SKF 81297 and the D2/D3 receptor agonist quinpirole in drug-naive or cocaine-exposed rats. The rewarding effects of the D1 agonists SKF 82958, ABT-431, A-77636, and the D2/D3 receptor agonist 7-OH-DPAT were also tested. Additionally, we tested the ability of SKF 81297 and quinpirole to modulate expression and reinstatement of an established cocaine place preference. Results The D1 receptor agonists SKF 81297, SKF 82958, and ABT-431 produced dose-dependent conditioned place preferences, whereas A-77636 produced only place aversion, and the D2/D3 agonists quinpirole and 7-OH-DPAT were without effect in drug naive rats. In cocaine-treated rats, SKF-81297-induced place preference was reduced, whereas quinpirole-induced place preference was revealed. Pretreatment using either D1 or D2/D3 agonists blocked expression of an established cocaine place preference, but only the D1 agonist SKF 81297 and cocaine dose-dependently reinstated an extinguished cocaine place preference, whereas the D2/D3 agonist quinpirole induced place aversion but failed to alter cocaine-induced reinstatement. Conclusions D1, but not D2/D3, agonists mediate rewarding effects and reinstatement of cocaine place preference, but the reinstating effects differ markedly from self-administration paradigms.     

Role of dopamine D-1 and D-2 receptor subtypes in mediating dopamine agonist effects on food consumption in rats

The effects of selective D-2 and D-1 dopamine (DA) receptor agonists on food consumption were investigated in free-feeding rats. A selective D-2 receptor agonist, (+)-4-propyl-9-hydroxynaphthoxazine (PHNO), increased the consumption of standard food pellets in the dose range of 7.5–120 g/kg, while SKF 38393 (5.0 mg/kg), a selective D-1 receptor agonist, decreased food pellet intake. The increase in food pellet intake produced by PHNO was blocked by haloperidol (an antagonist relatively selective for the D-2 receptor at the dose used, 0.05 mg/kg) and SCH 23390 (20 g/kg, a D-1 receptor selective antagonist). Increasing arousal by disturbance associated with repeated food weighting also increased food pellet consumption, but did not diminish PHNO-elecited feeding. However, the same range of doses of PHNO (7.5–120 g/kg) which increased food pellet intake decreased consumption of a liquid diet, and had no overall effect on a highly palatable liquid diet. The increase in consumption of solid food induced by PHNO appears to be secondary to enhancement of chewing behaviors. In contrast, the decrease in food intake induced by SKF 39393 may be due to a direct action of the drug on neural feeding mechanisms.     

Stimulation of D1- or D2-receptors in drug-naive rats with different degrees of unilateral nigro-striatal dopamine lesions

We had previously found that in animals with moderate nigro-striatal dopamine (DA) lesions (i.e. 45–65% residual neostriatal DA) the mixed D₁/D₂-agonist apomorphine induced ipsiversive rather than the usual contraversive turning found after more radical DA lesions. Since this result promised to provide a behavioral animal model for pre-clinical Parkinson's disease, we hoped to delineate the responsible receptor by challenging with selective D₁- and D₂-agonists. Thus, in the present study, the behavioral effects of the D₁-agonist SKF38393 (5.0 mg/kg) and the D₂-agonist LY171555 (0.5 mg/kg) were tested in drug-naive rats with unilateral 6-hydroxydopamine lesions of the nigro-striatal DA system. This analysis was performed dependent on the degree of the lesion, classified post-mortem with respect to the level of residual DA in the neostriatum: <20%, 20–45%, 45–65%, and >65% (as percentage of the intact hemisphere). The measures of turning, thigmotactic scanning and locomotion did not yield differences between animals treated with the D₁-agonist and vehicle-treated rats. For example, animals with severe lesions (residual DA <20%) showed ipsiversive asymmetries in turning and scanning, which were similar after vehicle or the D₁-agonist, both with respect to degree and time-course. However, the analysis of grooming behavior, which was performed in a subset of animals with moderate lesions yielded differences between vehicle and the D₁-agonist, since the duration of grooming was increased after SKF38393. In contrast to the D₁-agonist, behavioral effects after the D₂-agonist LY17155 were evident in all behavioral measures. The general response to this agonist could be characterized by a rapid decrease of behavioral activity including turning, scanning, locomotion and grooming. Although we failed to find significant behavioral asymmetries with either agonist, a micro-analysis showed evidence for selective effects after the D₂-agonist, since a contraversive asymmetry in turning (and scanning) became apparent between 45 and 60 min after injection in animals with severe lesions (residual DA of about 10% or less), and since there was a weak ipsiversive turning asymmetry in animals with residual DA levels of 45–65%. Such asymmetries were not observed after vehicle or the D₁-agonist. The possible physiological mechanisms of these effects, i.e. DA receptor mechanisms and DA availability, are discussed in the context of results from previous experiments using lesioned or intact animals.     

Effects of dopamine receptor agonists on passive avoidance learning in mice: interaction of dopamine D1 and D2 receptors.

The present study examined the effects of dopamine D1 and D2 receptor agonists on the acquisition stage of passive avoidance learning and on locomotor activity in mice. The D2 agonist, RU 24213 (1-10 mg/kg s.c.), and the non-selective agonist, apomorphine (0.3-3 mg/kg s.c.), but not the D1 agonist, SKF 38393 (1-10 mg/kg s.c.), impaired learning and activated locomotion. RU 24213 (1 mg/kg s.c.) was more effective in impairing learning than in activating locomotion. The concurrent administration of SKF 38393 (10 mg/kg i.p.) and RU 24213 (1 and 3 mg/kg s.c.) produced a synergistic effect in both behavioral situations. The D1 antagonist, SCH 23390 (0.025 mg/kg i.p.), slightly inhibited the effects of apomorphine and of the combination of SKF 38393 and RU 24213 on learning but not on locomotion. The D2 antagonist, (-)-sulpiride (40 mg/kg i.p.), completely blocked these effects in both situations. These results suggest that dopamine receptor agonists impair passive avoidance learning through the D2 receptor, and that D1 and D2 receptors act synergistically in this impairment, as they do in their effects on locomotion. The involvement of D1 and D2 receptors is qualitatively similar in each of these behaviors, although some small differences may exist.     

Chronic treatment with D1 and D2 dopamine receptor agonists: combined treatments interact to differentially affect brain levels of monoamines

Summary Recent evidence of functional interactions between D1 and D2 dopamine receptor subtypes has led to the concept that many of the behavioural effects of dopamine agonists occur only with activation of both receptor subtypes. Thus, combined treatment with dopamine agonists selective for each of the D1 and D2 receptors may be an effective therapy for Parkinson's disease, chiefly characterized by loss of central dopamine-containing neurons. In addition, recent hypotheses of the possible pathogenesis of this disorder have suggested that metabolism of dopamine by monoamine oxidase in the presynaptic terminal may contribute to the loss of dopaminergic cells, through the production of reactive by-products. Therefore, the effects of chronic (15 day) treatment of rats with different doses of (+)-4-propyl-9-hydroxynaphthoxazine (PHNO, a D2 receptor agonist), SKF 38393 (a D1 receptor partial agonist) or combinations of both drugs on levels of brain monoamines and some of their acidic metabolites were investigated. Little or no effects of the drugs were observed on measures of dopamine or noradrenaline when given separately, while each selective agonist dose-dependently reduced serotonin levels. Combined treatment with the two agonists produced profound effects on the catecholamines, but with no effect on 3,4-dihydroxyphenylacetic acid, the metabolite of dopamine produced by monoamine oxidase. In addition, the effects of combined treatment on serotonin levels were opposite of those of the drugs given independently. Concomitant treatment of animals with both D1 and D2 receptor agonists can therefore increase tissue levels of dopamine without increasing the potentially harmful metabolism of dopamine by monoamine oxidase.     

Place conditioning with dopamine D1 and D2 agonists injected peripherally or into nucleus accumbens

The conditioned place preference technique was used to assess the affective properties of the direct dopamine D1 agonist, SKF38393, and the direct D2 agonist, LY171555 (quinpirole). A three compartment apparatus was used: the animals' pre-experimental preference for the two choice compartments was equal and, within each experimental group, half the rats received drug pairings in each choice compartment. Intraperitoneal injections of SKF38393 produced conditioned place aversions at all doses tested (1.0–4.0 mg/kg); LY171555 produced weak conditioned place preferences at 1.0 and 2.0 mg/kg, but no reliable effect at 4.0 mg/kg. Bilateral intra-accumbens microinjections of SKF38393 produced strong preferences at all doses tested (0.5–2.0 µg/side); LY171555 produced strong preferences at two doses (0.5 and 1.0 µg/side) and no effect at a third dose (2.0 µg/side). These results suggest that activation of either D1 or D2 receptors in the nucleus accumbens can produce reward, and that D1 receptors (and possibly also D2 receptors) located elsewhere in the brain or in the periphery may mediate aversive effects.     

Dose-dependent effects of the D3-preferring agonist 7-OH-DPAT on motor behaviors and place conditioning

Dose-dependent effects of 7-OH-DPAT on several behaviors, including place preference, were assessed. Three 2-day conditioning trials were conducted. On 1 day, animals received an injection of one of eight doses of 7-OH-DPAT (0–5 mg/kg) and were placed into a distinct compartment for 40 min. On the other day, animals received an injection of saline and were placed into a different compartment for 40 min. Locomotion, sniffing, and yawning were measured following the first and last injection of 7-OH-DPAT. Place conditioning was assessed on the day following the last trial. 7-OH-DPAT produced a U-shaped dose-dependent change in locomotion and sniffing, and an inverted U-shaped dose-dependent change in yawning. Additionally, repeated administration of 0.1 mg/kg sensitized yawning, whereas 5 mg/kg sensitized locomotion. None of the doses of 7-OH-DPAT produced conditioned place preference, however, there was a trend for conditioned place aversion at 0.03 mg/kg. By contrast, LiCl (127 mg/kg) produced conditioned place aversion and amphetamine (1 mg/kg) produced conditioned place preference using the same conditioning parameters. A subsequent experiment in which the number of animals and conditioning trials were increased demonstrated that the 0.03 mg/kg dose of 7-OH-DPAT produced conditioned place aversion. 7-OH-DPAT has a higher affinity for D₃ receptors relative to D₂ receptors. Therefore, it is suggested that intermediate doses (0.01–0.1 mg/kg) that increase yawning, and decrease locomotion and sniffing, may preferentially occupy D₃ receptors. Furthermore, the results suggest that these putative D₃-preferring doses have weak aversive effects.     

Nafadotride administration increases D1 and D1/D2 dopamine receptor mediated behaviors

The administration of nafadotride, given at doses known to block the D3 dopamine receptors (0.75, 1.5, 3 mg/kg i.p.) increased locomotor activity both in naive and habituated rats and counteracted the hypothermia but not the hypomotility induced by a low dose of the putative D3 dopamine agonist (+/-)-7-hydroxy-2-(di-N-propylamino)-tetralin (7-OH-DPAT; 0.04 mg/kg). Nafadotride did not antagonize either the motor effects induced by different doses of the D2 agonist quinpirole (0.05 and 0.3 mg/kg) or the hypermotility induced by 7-OH-DPAT given at a dose (0.32 mg/kg) stimulating D2 dopamine receptors. The same nafadotride doses potentiated the grooming behavior induced by the D1 dopamine agonist SKF 38393 (10 mg/kg i.p.) as well as the stereotyped response to the D1/D2 agonist apomorphine (0.5 mg/kg s.c.). Stereotyped behavior was also observed in rats concomitantly treated with nafadotride and the D2 agonist quinpirole. As the activation of D1 dopamine receptors plays an important role in the occurrence of stereotypies, the results suggest that the blockade of D3 receptors by nafadotride could have favored D1/D2 dopamine receptor-mediated behaviors by potentiating D1 receptor function.