Behavioral effects of selective and nonselective dopamine agonists on young rats after irreversible antagonism of D1 and/or D2 receptors

In general, preweanling and adult rats respond similarly when challenged with competitive dopamine (DA) agonists or antagonists. In contrast, results using a noncompetitive antagonist suggest that the D₁ and D₂ receptor systems of preweanling and adult rats differ in some critical way. To further assess this phenomenon, the behavioral effects of irreversible receptor blockade were assessed across 8 days in NPA (a nonselective DA agonist), quinpirole (a D₂ agonist), or SKF 38393 (a D₁ agonist) treated 17-day-old rat pups. The irreversible antagonist N-ethoxycarbonyl-2-ethoxy-1,2-dihydroquinoline (EEDQ) did not block the locomotor activity and rearing of NPA- or quinpirole-treated rat pups, nor did EEDQ reduce SKF 38393-induced grooming. Moreover, pretreatment with EEDQ appeared to potentiate the normal increases in locomotor activity and rearing produced by NPA, but only when D₂ receptors were not protected by a previous injection of sulpiride (a D₂ antagonist). Taken together, these results are consistent with the presence of large reserves of D₁ and D₂ receptors in the preweanling rat pup.     

Differential effects of fluphenazine-N-mustard,on calmodulin activity and on D1 and D2 dopaminergic responses

Fluphenazine-N-mustard (FNM) has been shown to irreversibly block dopaminergic receptor sites and inhibit certain dopaminergically-mediated behaviors. In this study we measured whether FNM has any differential effects on D₁ and D₂ dopaminergic events. Accordingly, we examined the relative effects of FNM on rotational behavior induced by SKF 38393 (D₁ agonist) and Ly 171555 (D₂ agonist) in mice with unilateral, 6-hydroxydopamine-induced lesions of the striatum and the effects of FNM on the binding of [³H]Sch 23390 (D₁ ligand) and [³H]spiroperidol (D₂ ligand) to mouse striatal membranes. FNM inhibited rotational behavior induced by Ly 171555 at doses 10-fold lower than those required to block rotations induced by SKF 38393 (ID₅₀ values: Ly 171555=1.8 mole/kg, IP; SKF 38393=16 mole/kg, IP). The inhibitory effect of high doses of FNM (20 mole/kg) on rotational behavior was overcome by increasing the dose of SKF 38393 and apomorphine, a nonselective dopaminergic agonist. By contrast, the inhibitory effect of FNM was not overcome by Ly 171555, even when given in doses more than 100 times its ED₅₀. Using striatal homogenates in vitro, FNM inhibited the specific binding of [³H]spiroperidol at concentrations about 10-fold lower than those required to inhibit the binding of [³H]Sch 23390 (IC₅₀ values: [³H]spiroperidol=90 nM; [³H]Sch 23390=840 nM). Considerably higher concentrations of FNM were needed to irreversibly inhibit calmodulin activity in striatal homogenates (IC₅₀=10 M). In vivo, FNM inhibited the binding of [³H]spiroperidol measured ex vivo (ID₅₀=4 mole/kg), but did not inhibit the binding of [³H]Sch 23390, even when given in doses as high as 100 mole/kg. These studies indicate that FNM was approximately 10 times more potent at inhibiting D₂-than D₁-mediated behavior and at displacing D₂ versus D₁ ligands and suggest that FNM may be useful for studying and differentiating D₂- and D₁-mediated events.     

Effects of selective drugs for dopaminergic D1 and D2 receptors on conditioned locomotion in rats

Classically conditioned locomotor activity has been demonstrated by pairing injections of dopamine agonists or antagonists with specific environmental stimuli. The present studies investigated conditioning using drugs with varying selectivity for the dopamine D1 or D2 receptor. Experiment 1 assessed conditioning in groups of rats using the indirect acting agonist (+)-amphetamine (2.0 mg/kg), and the D1 agonist SKF 38393 (10.0 mg/kg), the D2 agonist quinpirole (2.5 mg/kg), the D1 and D2 antagonists, SCH 23390 (0.05 mg/kg) and metoclopramide (25.0 mg/kg), respectively. Paired groups received nine 2-h drug-environment (automated activity monitoring chambers) pairings whereas Unpaired groups received the stimuli explicitly unpaired. Test revealed conditioned hyperactivity with each agonist and metoclopramide whereas conditioned hypoactivity was seen with SCH 23390. Experiment 2 assessed the interaction of these agonists and antagonists on the establishment of conditioned activity. Paired groups received an agonist and antagonist during conditioning sessions. SCH 23390 blocked conditioning based on (+)-amphetamine and SKF 38393 but not quinpirole. Metoclopramide (10.0 mg/kg) blocked conditioning based on quinpirole but not SKF 38393. Metoclopramide (25.0 mg/kg) also did not block (+)-amphetamine-induced conditioning. These studies suggested that drug-induced alterations at either D1 or D2 receptors may be involved in conditioned locomotion.     

Parametric and pharmacological analyses of the enhanced grooming response elicited by the D1 dopamine receptor agonist SKF 38393 in the rat

The present report investigated several parametric and pharmacological aspects of the enhanced self-grooming behavior of rats following systemic administration of the selective D₁ dopamine (DA) receptor agonist SKF 38393. The amount of time that rats spent grooming themselves was measured continuously for 30 min following drug administration to provide a quantitative measure of the drug-induced behavior. SKF 38393 increased the amount of grooming in a dose-dependent manner (0.5–16 mg/kg, SC). The onset of this effect required at least 5 min and it persisted for at least 60 min. The ability of SKF 38393 to enhance grooming was shared by R-SKF 38393, but not S-SKF 38393, consistent with the affinities of these enantiomers for the D₁ DA receptor. Unlike SKF 38393, the peripheral D₁ agonist fenoldopam (SKF 82526) failed to cause an increased grooming response, suggesting a central site of action for elicitation of this behavior. The SKF 38393-induced increase in grooming was competitively antagonized by the D₁ selective antagonist SCH 23390 (0.5 mg/kg, SC). Although the D₂ DA receptor-selective antagonist eticlopride reduced SKF 38393-elicited grooming, this antagonism appeared to be of a physiological rather than pharmacological nature. When eticlopride was coadministered with the non-selective (mixed) D₁/D₂ agonist apomorphine, an increase in grooming behavior similar to that produced by SKF 38393 was observed. Inactivation of D₁ and D₂ DA receptors produced by pretreatment with the irreversible antagonistN-ethoxycarbonyl-2-ethoxy-1, 2-dihydroquinoline (EEDQ), at a dose which reduces D₁ and D₂ receptor density by 50% (8.0 mg/kg, IP), reduced SKF 38393-induced grooming by approximately 50%. Prior protection of D₁ receptors by SCH 23390 completely prevented the effect of EEDQ whereas prior protection of D₂ receptors by eticlopride did not. These results demonstrate that enhanced grooming behavior elicited by dopamine agonists in rats, when measured as the amount of time spent grooming, provides a reliable, quantifiable index of selective D₁ DA receptor activation in the CNS. In addition, this behavior does not appear to require concurrent stimulation of D₂ DA receptors by endogenous DA.     

Self-administration of the D1 agonist SKF 82958 is mediated by D1, not D2, receptors

We have previously reported that two D₁ dopamine agonists, SKF 82958 and SKF 77434, are readily self-administered by rats. However, due to the limited selectivities of these agents, it was not possible to attribute their reinforcing effects exclusively to their D₁ actions. To assess the relative involvement of D₁ and D₂ receptors in SKF 82958 reinforcement, rats were pretreated 30 min before self-administration sessions with either the D₁-selective antagonist (+)SCH 23390 or the D₂-selective antagonist raclopride. The D₁ antagonist (+)SCH 23390 (5–20 µg/kg, SC) produced significant, dose-related (compensatory) increases in SKF 82958; in contrast, the D₂ antagonist raclopride (25–400 µg/kg, SC) did not significantly increase SKF 82958 self-administration, although raclopride did increase cocaine self-administration. Compensatory increases in self-administration rates are thought to reflect antagonist-induced reductions in drug reinforcement. Hence, we conclude that SKF 82958 self-administration depends on activation of a D₁-regulated reinforcement substrate.This work was supported by U.S.P.H.S. grants DA-05107, DA-05379, and DA-07747. All animal procedures were performed in accordance with the Guide for the Care and Use of Laboratory Animals (NIH pub. no. 86-23, revised 1985).     

Contralateral turning elicited by unilateral stimulation of dopamine D2 and D1 receptors in the nucleus accumbens of rats is due to stimulation of these receptors in the shell,but not the core,of this nucleus

The goal of this study was to determine whether dopamine D₂ and/or D₁ receptors in the shell and the core of the nucleus accumbens of rats have a differential role in turning behaviour. Unilateral injection of a mixture of the dopamine D₂ receptor agonist quinpirole (10 µg) and the dopamine D₁ receptor agonist 1-phenyl-2,3,4,5-tetrahydro-1H-3-benzazepine-7, 8-diol (SKF 38393, 5 µg) into the shell of the nucleus accumbens produced contralateral turning, when doses which per se were ineffective were injected. This effect was far greater than that found after similar injections into the core of the nucleus accumbens. The effect elicited from the shell was significantly attenuated by prior administration of either the dopamine D₂ receptor antagonistl-sulpiride (25 ng/0.5 µl) or the dopamine D₁ receptor antagonist (8-chloro-2,3,4,5-tetrahydro-3-methyl-5-phenyl-1H-3-benzazepine-7-ol (SCH 23390, 0.5 µg/0.5 µl) into the same region. These data together with the fact thatl-sulpiride is known to be a valid tool to differentiate the involvement of distinct regions within the shell underlie the conclusion that dopamine D₂ and D₁ receptors in the shell, but not the core, of the nucleus accumbens play a critical role in the contralateral turning induced by unilateral injection of dopamine receptor agonists into this nucleus. The results are discussed in view of the known output pathways of the shell.     

Relative roles of ventral striatal D1 and D2 dopamine receptors in responding with conditioned reinforcement

Several experiments investigated the involvement of D₁ and D₂ dopamine receptors in the ventral striatum in the control over behaviour by a conditioned reinforcer using an acquisition of new response procedure. Intra-accumbens infusion of either the D₁ receptor antagonist, SCH 23390, or the D₂ receptor antagonist, raclopride, completely blocked the potentiative effects of intra-accumbensd-amphetamine on responding with conditioned reinforcement and reduced responding to control levels. SCH 23390 was more potent than raclopride. At higher doses in the absence ofd-amphetamine, both antagonists also blocked the preference for responding on the lever producing the conditioned reinforcer. Intra-accumbens infusions of either the D₁ receptor agonist, SKF 38393, or the D_2/3 receptor agonist, LY 171555 (quinpirole), selectively potentiated responding on the lever producing the conditioned reinforcer. Various combined infusions of the D₁ and D₂ agonists in specific low doses had additive, but not synergistic, effects on responding with conditioned reinforcement. None of the drugs affected the drinking of water in deprived subjects when infused intra-accumbens. These results suggest that both D₁ and D₂ receptors in the nucleus accumbens are involved in mediating the effects of dopamine in potentiating the control over behaviour by conditioned reinforcers.     

Production of climbing behaviour in mice requires both D1 and D2 receptor activation

The ability of SKF38393 (a D1 agonist), quinpirole (a D2 agonist), and apomorphine (a mixed D1/D2 agonist) to induce stereotyped climbing behaviour in mice was investigated. Apomorphine produced a dose-related increase in stereotyped cage climbing which lasted for up to 60 min. SKF38393 and quinpirole failed to produce climbing when administered alone. When given in combination intense apomorphine-like cage climbing was observed which lasted for up to 2 h. Apomorphine or the combination of SKF38393 and quinpirole also produced biting of the cage. The climbing behaviour produced by either apomorphine or SKF38393/quinpirole combinations was antagonised by either the D1 antagonist, SCH23390 or the D2 antagonist clebopride. These results demonstrate that both D1 and D2 receptor activation is necessary to produce apomorphine-like cage climbing in mice. Offprint requests to: N.A. Moore     

Differential antagonism of the effects of dopamine D1-receptor agonists on feeding behavior in the rat

A series of experiments was conducted to examine the effects of dopamine D₁ receptor agonists on food intake in rats. In the first experiment, the D₁ agonist SKF 38393 (3.0–30.0 mg/kg) dose-dependently suppressed feeding during a 40 min food-access period, both in food-deprived rats and in non-deprived rats fed a highly palatable diet. Non-deprived rats were more sensitive to these effects of SKF 38393. Using the limited-access, food-deprivation procedure, a comparison was made between the anorectic effects of three D₁ agonists with differing intrinsic efficacies and receptor selectivities. Rank order of potencies for reducing food intake was SKF 82958 > SKF 77434 > SKF 38393 (ED₅₀ values: 0.7, 3.6 and 15.7 mg/kg, respectively). Dose-related, surmountable antagonism by the D₁ antagonist SCH 23390 (0.01 and 0.03 mg/kg) was only obtained with SKF 82958 (0.1–10.0 mg/kg). In contrast to the other compounds, the effects of SKF 38393 were not appreciably altered by the D₁ antagonist. The effects of SKF 82958 were also antagonized by the D₂ receptor antagonist spiperone (0.05 and 0.1 mg/kg), although not in a dose-dependent manner. The present results support a role for D₁ receptors in central feeding mechanisms. They also suggest that the effects of SKF 38393 on feeding may not be mediated exclusively by the D₁ receptor and, further, that SKF 38393 may not serve well in behavioral studies as a prototypical D₁ agonist. The results also demonstrate the need for comparisons among several compounds in studies of D₁ mediated behavioral effects.     

Chronic treatment with the D1 receptor antagonist,SCH 23390, and the D2 receptor antagonist,raclopride, in cebus monkeys withdrawn from previous haloperidol treatment

The effects of chronic treatment with dopamine (DA) D₁ and D₂ receptor antagonists were evaluated in eightcebus apella monkeys with mild oral dyskinesia after previous haloperidol treatment. SCH 23390 (D₁ antagonist) was given daily to investigate the direct behavioural effect during long-term treatment and the subsequent supersensitivity to DA agonists. Raclopride (D₂ antagonist) was investigated for comparison. All drugs were given subcutaneously. SCH 23390 and raclopride induced dystonic syndromes, catalepsy, sedation and reduced locomotor activity. The monkeys developed marked tolerance to the dystonic effect of SCH 23390, while they showed increased sensibility to the dystonic effect of raclopride. Baseline oral dyskinesia (24 h after injection) remained unchanged during D₁ antagonist treatment, while it increased during D₂ antagonist treatment. SCH 23390 induced supersensitivity to the oral dyskinesia- and grooming-inducing effects of SKF 81297 (D₁ agonist) after 9 weeks, while the subsequent treatment with raclopride induced supersensitivity to the reactivity- and stereotypy-inducing effects of quinpirole (D₂ receptor agonist) after 3 weeks. Because of the possibility of a carry-over effect (SKF 81297-induced oral hyperkinesia and grooming), other changes in raclopride-induced behaviours cannot be ruled out. The development of tolerance to the dystonic effect of SCH 23390 and the unchanged baseline oral dyskinesia during SCH 23390 treatment indicate an advantageous profile of side effects of DA D₁ receptor blockade.     

D1 priming enhances both D1- and D2-mediated rotational behavior and striatal Fos expression in 6-hydroxydopamine lesioned rats

Rats with unilateral 6-hydroxydopamine (6-OHDA) lesions exhibit behavioral sensitization upon repeated treatment with dopamine agonists, a phenomenon called ‘priming’. We examined the effectiveness of priming with D1 or D2 agonists on rotational behavior and striatal Fos expression following challenge with D1 or D2 agonists. Twenty-one days post-lesion, rats received three priming injections, spaced 3-6 days apart, with water, D1 agonist SKF38393 (10 mg/kg) or D2 agonist quinpirole (1 mg/kg). One week later, 6-OHDA rats were challenged with water, SKF38393 (1 or 10 mg/kg) or quinpirole (0.25 mg/kg). 6-OHDA rats challenged with SKF38393 (1 mg/kg) showed no contralateral rotational behavior, but robust striatal Fos expression in D1-primed animals. Challenge with SKF38393 (10 mg/kg) led to pronounced contralateral rotational behavior and striatal Fos expression in all priming groups — with the largest behavioral response in D1- and D2-primed rats. Quinpirole challenge (0.25 mg/kg) led to robust contralateral rotational behavior and striatal Fos expression in D1-primed animals, but only mild rotational behavior and baseline levels of striatal Fos expression in D2-primed animals. These data suggest that D1- or D2-priming enhances rotational behavior following challenge with D1 or D2 agonist, but only D1-priming enhances D1- and D2-mediated striatal Fos expression in 6-OHDA rats.     

Dopamine agonists facilitate footshock-elicited locomotion in rats,and suppress lever-press responding for food

Several dopamine agonists (apomorphine, quinpirole, 7-OH-DPAT, and U-91356A) suppressed locomotor activities of rats exploring a Y-maze, presumably through activation of dopamine autoreceptors. If brief electric shocks were applied to the grid floor during exploration, locomotion was unchanged in control rats, but the locomotor suppression from the dopamine agonists was converted to a profound stimulation. this locomotor stimulation was completely antagonized by pretreatment with sulpiride. SKF 38393 and clonidine produced no locomotor stimulation in the shock environment. To test whether the locomotor stimulant effect from dopamine agonists generalizes to a food-reinforced behavior, rats were trained to lever-press for food according to a multiple (VI-10, VI-40) schedule. The above compounds only suppressed responding with no stimulation, and the suppressant effect on food-reinforced behavior was also blocked by sulpiride. It is concluded that the behavioral inhibitory effect from dopamine autoreceptor activation can be readily overcome by exteroceptive stimulation, which uncovers a powerful motor stimulant effect. This stimulant effect, however, did not generalize to lever-press responding for food.     

Effects of acute dopamine depletion on responsiveness to D1 and D2 receptor agonists in infant and weanling rat pups

The behavioral responses to separate and combined administration of the D₁ agonist SKF-38393 and the D₂ agonist quinpirole following acute dopamine (DA) depletion via alpha-methyl-p-tyrosine (AMPT) or AMPT/reserpine were examined in infant (10-day-old) and weanling (21-day-old) rat pups. At both ages, AMPT pretreatment generally had little impact on D₁- or D₂-agonist-induced responding, whereas the greater DA depletion observed following AMPT/reserpine pretreatment was generally associated with suppression of both D₁ and D₂ agonist-typical responding. Thus, whereas in adult animals some degree of D₁ receptor activation by endogenous dopamine appears to be necessary for D₂ responding but not vice versa (e.g. White et al. 1988), in young animals there appears to be a reciprocal co-dependence of these two receptor subtypes, with extensive DA depletion suppressing responding to both agonists when administered separately. At 10 days of age, some D₁ and D₂ agonist-induced behaviors that were previously blocked by AMPT/reserpine were reinstated following combined administration of both agonists. In contrast, no clear evidence for reinstatement was seen following administration of the combined agonists to AMPT/reserpine-pretreated weanlings, perhaps due to the induction of potential competing behaviors. Whereas DA depletion blocked many D₁- and D₂-induced behaviors, such depletion conversely promoted the expression in agonist-treated animals of a number of behaviors that were not normally induced by the agonists in non-depleted animals. These behaviors typically involved an oral component and included grooming and mouthing following SKF-38393 in depleted 10-day-old pups, mouthing following administration of either agonist to depleted weanlings, and probing and intense self-mutilation (forepaw and tongue biting) following the combined agonists in depleted weanlings. This rapid induction of potentiated agonist responsiveness following acute DA depletion early in life may have significant implications with regard to animal models for the developmental disorder of Lesch-Nyhan syndrome.     

Morphine and naltrexone modulate D2 but not D1 receptor induced motor behavior in MPTP-lesioned monkeys

Interactions at the behavioral level between dopamine (DA) and opioid receptors in the mammalian brain have been amply demonstrated. Considering the pivotal role for DA receptors in the pharmacotherapy of Parkinson's disease (PD), these interactions might be clinically relevant. Therefore, in the present study the effects of the opioid antagonist naltrexone and agonist morphine on D₁ and D₂ receptor induced stimulation of motor behavior in the unilateral MPTP monkey model (n=5) of PD were investigated. The results show that both naltrexone and morphine [0.1–1.0 mg/kg; intramuscular injection (IM)] inhibited D₂ receptor stimulated contralateral rotational behavior and hand use induced by administration of quinpirole (LY 171555; 0.01 mg/kg, IM) in a dose-related way. However, no effects of these opioid drugs were observed on D₁ receptor stimulated contralateral rotational behavior and hand use induced by administration of SKF 81297 (0.3 mg/kg, IM). Interestingly, the action of the alleged preferential-receptor antagonist naltrexone was mimicked by the selective-opioid antagonist naltrindole (0.5 mg/kg, IM). From this study it is concluded that in a non-human primate model of PD, alteration of opioid tonus leads to modulation of D₂ receptor but not D₁ receptor controlled motor behavior. The possible underlying mechanisms and clinical relevance of these findings are discussed.     

Dopaminergic behaviour stereospecifically promoted by the D1 agonist R-SK & F 38393 and selectively blocked by the D1 antagonist SCH 23390

The selective D₁ dopamine receptor agonist R-SK & F 38393 (20 mg/kg), but not its S-antipode, stereospecifically promoted episodes of prominent grooming behaviour. Typical stereotyped behaviour, such at that induced by apomorphine, was not seen. Grooming responses to 20 mg/kg R-SK & F 38393 were blocked by 0.1–0.5 mg/kg of the selective D₁ antagonist SCH 23390 but not by 1.0–5.0 mg/kg of the selective D₂ antagonist metoclopramide, while stereotyped behaviour induced by 0.5 mg/kg apomorphine was blocked by both antagonists. These results are consistent with certain individual dopaminergic behaviours such as grooming being mediated by D₁ receptors. Other dopaminergic syndromes may involve complex functional interactions between D₁ and D₂ receptors.     

Selective effects of the D1 dopamine receptor agonist,SKF 38393, on behavior maintained by cocaine injection in squirrel monkeys

The effects of the dopamine receptor D₁ partial agonist, SKF 38393, on behavior maintained by cocaine was assessed in squirrel monkeys (Saimiri sciureus). One group of subjects was trained to press a key under a fixed-ratio 30-response schedule of cocaine injection; when green stimulus lamps were illuminated each 30th response produced an injection (17 µg/kg) followed by a 1-min period during which the lights were out and responses had no scheduled consequences. Another group of squirrel monkeys was trained under an identical schedule with food reinforcement. SKF 38393 produced dose-related decreases in rates of responding maintained by either cocaine injection or food presentation. Rates of responding maintained by cocaine were decreased to a greater extent than those maintained by food. The ED₅₀ value for SKF 38393 for responding maintained by cocaine was 2.53 mg/kg (95% CL: 1.22–5.23), whereas that value was 15.63 mg/kg (95% CL: 2.83–86.33) for responding maintained by food. Rates of responding maintained by cocaine were an inverted-U-shaped function of dose. Pretreatment with 3.0 mg/kg SKF 38393 shifted the ascending limb of the cocaine dose-effect curve to the right. These findings suggest that indirect D₁-receptor activation plays a role in the reinforcing effects of cocaine, and that drugs acting at D₁ receptors may show promise as therapeutic agents in the treatment of cocaine abuse.     

The discriminative properties of the D1 dopamine agonist dihydrexidine in the rat

The objective of this study was to train rats to discriminate the interoceptive stimuli produced by a selective dopamine D₁ agonist. Fourteen male Sprague-Dawley rats acquired the discrimination of the fully effective, high potency, D₁ agonist dihydrexidine (DHX) within 20 sessions using a training dose of 3.0 mg/kg. DHX (0.75–4.5 mg/kg) dose-dependently increased DHX-appropriate responding with an ED₅₀=1.44 mg/kg. The selective D₁ agonist SKF 38398 (2.0–8.0 mg/kg) dose-responsively generalized with an ED₅₀=3.54 mg/kg; significantly less potent than DHX. The selective D₁ antagonist SCH 23390 (0.06–0.12 mg/kg) dose-responsively decreased DHX-appropriate discriminative performance. These data would indicate that DHX is a selective D₁ agonist that may allow for testing of the selectivity of other putative D₁ agonists in this experimental procedure. Administration of non-selective dopaminergically active drugs, including apomorphine, amphetamine and cocaine, were each shown to produce intermediate DHX-appropriate discriminative performance.     

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.     

A comparison of the effects of the D1 receptor antagonists SCH 23390 and SCH 39166 on suppression of feeding behavior by the D1 agonist SKF38393

The hypophagic effect of the D₁ receptor agonist SKF 38393 is not dose-dependently antagonized by the D₁ antagonist SCH 23390. Moreover, the receptor specificity of this interaction remains in question, since SCH 23390 has significant activity at both 5-HT₂ and 5-HT_1C receptors, and SKF 38393 also interacts with 5-HT_1C receptors. To determine the relative significance of these actions, a comparison was made between the anorectic effects in rats of SCH 23390 (0.1–1.0 mg/kg) and the benzonaphthazepine SCH 39166 (0.1–3.0 mg/kg), a D₁ antagonist with negligible affinity for 5-HT sites. Both compounds inhibited food-intake dose-dependently, with SCH 23390 being approximately twice as potent as SCH 39166. Behaviorally inactive and active doses of both antagonists were tested in combination with the D₁ agonist SKF 38393 (10–56 mg/kg). Neither antagonist was able to produce more than a marginal attenuation of the agonist-induced hypophagia. This demonstrates that previous failures to reverse the behavioral actions of SKF 38393 by SCH 23390 were not due to specific actions of this particular antagonist. Finally, like SCH 23390, SCH 39166 (0.3 mg/kg) was able to attenuate fully the anorectic effects of the D₁ agonist SKF 82958 (1.0 and 3.0 mg/kg), demonstrating that neither compound is intrinsically unable to block D₁ receptor-mediated hypophagia. The results demonstrate the generality of the D₁ antagonist-mediated effect on feeding and call into question the use of SKF 38393 as a D₁ agonist in studies of feeding, and perhaps in other contexts as well.     

Biphasic locomotor effects of the dopamine D1 agonist SKF 38393 and their attenuation in non-habituated mice

The locomotor stimulatory effects of the dopamine D₁ receptor partial agonist SKF 38393 were examined in male C57B1/6J mice. Non-habituated mice showed marked dose-related (3–300 mg/kg, SC) locomotor stimulation. The time-course effect was biphasic at very high doses (100–300 mg/kg), with dose-related locomotor depression followed by dose-related long-term hyperlocomotion. For all doses, locomotor effects were detectable throughout the 4-h test period. To determine whether these effects were mediated by D₁ receptor stimulation, effects of SKF 38393 were assessed in combination with behaviorally inactive and active doses (0.1 and 0.2 mg/kg, respectively) of the selective D₁ receptor antagonist SCH 39166. Both doses of SCH 39166 attenuated the hyperlocomotion induced by 30 mg/kg of the agonist to a similar degree. However, neither dose was able to reverse either the depressant or the stimulatory effects of 300 mg/kg SKF 38393. These results demonstrate effects of the prototypical D₁ agonist previously unobserved, and raise questions concerning the nature of agonist/antagonist interactions at the D₁ receptor subtype.