Subsensitivity to rewarding and locomotor stimulant effects of a dopamine agonist following chronic mild stress

Chronic exposure to very mild unpredictable stress has previously been found to reduce or abolish the acquisition of place preference conditioning. In the present study, chronic mild stress was found to abolish the acquisition of preferences for a distinctive environment paired with systemic administration of amphetamine (0.5 mg/kg) or quinpirole (100–400 µg/kg) or with quinpirole (0.75 µg) administered bilaterally within the nucleus accumbens. The locomotor stimulant effects of quinpirole (100–400 µg/kg) were also attenuated in stressed animals. The results suggest that decreased sensitivity to reward following chronic mild stress results from a decreased sensitivity of dopamine D₂ receptors within the nucleus accumbens.     

Reversal of stress-induced anhedonia by the dopamine receptor agonist,pramipexole

Chronic exposure to mild unpredictable stress has previously been found to depress the consumption of a palatable (1%) sucrose solution, and to attenuate food-induced place preference conditioning. In this study the effects of pramipexole (SND-919), a dopamine D₂ agonist, were studied during 7–9 weeks of chronic treatment. Pramipexole (1.0 mg/kg per day) reversed the suppression of sucrose intake in stressed animals, increasing sucrose intakes above the levels seen in untreated nonstressed controls. Pramipexole also increased sucrose intake in nonstressed animals; these effects were accompanied by increases in water intake and tended to correlate with weight loss. Drug-treated stressed animals also lost weight, but in this case water intake was unaffected. A second group of animals received a higher dose of pramipexole (2.0 mg/kg per day). The effects of the two doses were very similar. After three weeks of treatment, these animals were switched to a lower dose of pramipexole (0.1 mg/kg per day). Increases in sucrose intake were maintained over three weeks of treatment at the lower dose, with significant recovery of body weight. Two further groups received the same doses of pramipexole (1.0 mg/kg for 6 weeks or 2.0 mg/kg for 3 weeks followed by 0.1 mg/kg thereafter), but received intermittent (twice-weekly) drug treatment. Intermittent pramipexole treatments also tended to increase sucrose intakes, but the results were less consistent from week to week. Following 6–8 weeks of pramipexole treatment, food-induced place preference conditioning was studied in all animals. Untreated stressed animals showed no evidence of place conditioning. Normal conditioning was seen in both groups of stressed animals treated daily with pramipexole (at 1.0 and 0.1 mg/kg) and in the group treated twice weekly at the higher dose (1.0 mg/kg); intermittent treatment at the lower dose (0.1 mg/kg) was ineffective. The results indicate that pramipexole exerts rapid anti-anhedonic effects in the chronic mild stress model. This conclusion is complicated, but not undermined, by drug-induced weight loss and by the presence of significant drug effects in nonstressed control animals.     

Reversal of stress-induced anhedonia by the atypical antidepressants,fluoxetine and maprotiline

Chronic exposure to mild unpredictable stress has previously been found to depress the consumption of palatable sweet solutions. In the present study this effect was reversed by chronic (9 weeks) treatment with the atypical antidepressants, fluoxetine and maprotiline (5 mg/kg/day); the non-antidepressant chlordiazepoxide was ineffective. Stressed animals were also subsensitive to food reward in the place conditioning procedure; however, fluoxetine and maprotiline treated animals showed normal place preference conditioning. Acute pretreatment with raclopride (100 µg/kg) selectively reversed the recovery of sucrose drinking in antidepressant-treated stressed animals. These results extend previous reports of the efficacy of tricyclic antidepressants in this paradigm, and support the hypothesis of a dopaminergic mechanism of antidepressant action.     

Anti-anhedonic actions of the novel serotonergic agent flibanserin, a potential rapidly-acting antidepressant

Chronic exposure to mild unpredictable stress has previously been found to depress the consumption of palatable sweet solutions and to block the formation of conditioned place preferences; these effects are reversed by chronic treatment with tricyclic or atypical antidepressant drugs. The present study was designed to evaluate the antidepressant-like activity in this model of flibaserin (BIMT-17), a novel serotonergic agent with 5-HT_1A receptor agonist and 5-HT₂ receptor antagonist properties. Two experiments were conducted, using rats (experiment 1) and mice (experiment 2). In experiment 1, decreases in sucrose intake were seen in rats exposed to chronic mild stress, but the effect was unreliable in this study, and sucrose testing was terminated after 7 weeks of stress. Beginning after 5 weeks of stress, groups of control and stressed animals were treated daily with vehicle, fluoxetine (5 mg/kg) or flibanserin (5, 10 or 20 mg/kg). After 6 weeks of treatment, all animals were tested for acquisition of food-reinforced place preference conditioning. Conditioning was seen in all groups other than the vehicle-treated stressed animals. We also tested the locomotor stimulant effect of a single injection of the dopamine D₂/D₃ receptor agonist quinpirole (0.2 mg/kg). The effect of quinpirole was potentiated by fluoxetine in control animals, and by both fluoxetine and flibanserin (all doses) in stressed animals. In experiment 2, long-lasting decreases in sucrose intake were seen in mice exposed to chronic mild stress. The effects were reversed by chronic (4 weeks) treatment with fluoxetine (5 mg/kg) or flibanserin (2.5 or 5 mg/kg); the full effect of flibanserin was seen after the first injection. All animals received a single injection of raclopride (0.1 mg/kg) immediately prior to a sucrose intake test on day 27 of drug treatment. Raclopride decreased sucrose intake only in the three drug-treated stressed groups. The results support a rapid antidepressant-like action of flibanserin, and suggest that this effect involves sensitization of dopamine D₂/D₃ receptor-mediated transmission.     

Stereospecific reversal of stress-induced anhedonia by mianserin and its (+)-enantiomer

Chronic sequential exposure to a variety of mild unpredictable stressors has previously been found to depress the consumption of a dilute (1%) sucrose solution and to inhibit food-induced place preference conditioning. In the present study, using a simplified version of the mild stress procedure, the decreased sucrose intake was reversed by chronic (4 weeks) treatment with the atypical antidepressant mianserin. The racemic compound (±)-mianserin (5 mg/kg per day) and one of its enantiomers, (+)-mianserin (2.5 mg/kg) were effective in this model; a lower dose of (±)-mianserin (2.5 mg/kg), and the other enantiomer, (–)-mianserin (2.5 mg/kg), were ineffective. Vehicle-treated stressed animals were also subsensitive to food reward in the place conditioning procedure: normal place preference conditioning was reinstated by chronic treatment with (±)-mianserin (5 mg/kg) or (+)-mianserin, but not by the lower dose of (±)-mianserin (2.5 mg/kg) or by (–)-mianserin. Raclopride (100 µg/kg) reinstated the decrease in sucrose intake in stressed animals successfully treated with (±)- or (+)-mianserin. The results suggest that (+)-mianserin is the active enantiomer in reversing chronic mild stress-induced anhedonia, and further support the hypothesis of a dopaminergic mechanism of antidepressant action in this paradigm.These data were presented at the joint meeting of the British Association for Psychopharmacology and the European Behavioural Pharmacology Society held in Cambridge, UK in July 1992 (Cheeta et al. 1992).     

The effects of selective dopamine D1 or D2 receptor antagonists on the establishment of agonist-induced place conditioning in rats

The ability of the dopamine D1 antagonist, SCH 23390 (0.01, 0.1, 1.0, 2.0 mg/kg) or the D2 antagonist, metoclopramide (1.0, 10.0, 20.0 mg/kg), to block the establishment of place conditioning with either the nonselective dopamine agonist, amphetamine (2.0 mg/kg), the D1 agonist, SKF 38393 (10.0 mg/kg), or the D2 agonist, quinpirole (1.0 mg/kg), was evaluated in rats. The experimental protocol consisted of three phases. During the preexposure phase, rats explored two distinctive compartments joined by a small tunnel. During the 8-day conditioning phase, rats were pretreated with either saline, SCH 23390 or metoclopramide; 1 hr later the animals were treated with an agonist and confined to one compartment for 30 min. On alternate days, rats received saline and were placed in the opposite compartment. Test days occurred over the remaining 3 days during which drug-free animals were allowed access to both compartments. A significant increase or decrease in the amount of time spent in the drug-paired environment was indicative of a place preference or aversion, respectively. SCH 23390 and metoclopramide were effective in blocking amphetamine-induced place preference and SKF 38393-induced place aversion. At lower doses, the D1 and D2 antagonist blocked the place preference induced by quinpirole, however, higher doses were not effective. In general, these data suggest that both receptor subtypes participate in the establishment of place conditioning with amphetamine, SKF 38393 or quinpirole.     

Administration of leu-enkephalin impairs the acquisition of preference for ethanol

The effects of subcutaneous administration of leuenkephalin (LEU-E) (10, 100 and 300 µg/kg) and LEU-E (100 µg/kg) plus naloxone (2.5 mg/kg) on ethanol preference and fluid intake have been investigated in rats. Under our procedural conditions, rats develop ethanol preference through forced ethanol drinking (conditioning session). Preconditioning administration of LEU-E induced a reduction of later ethanol preference. Post-conditioning administration of LEU-E (10 and 100 µg/kg) also attenuated the development of ethanol preference. NX antagonized the effects of LEU-E on ethanol preference and fluid consumption in the two experimental procedures used, indicating an involvement of opioid receptors in the LEU-E-induced impairment of the acquisition of ethanol preference.Supported by a PFPI fellowship from the MEC     

Dissociation of the effects of amphetamine and quinpirole on dopamine release in the nucleus accumbens following behavioural sensitization: an ex vivo voltammetric study

Behavioural sensitization to the locomotor stimulant effect of (+)-amphetamine or quinpirole was induced in rats by intermittent drug administration. Once established, endogenous dopamine release (DA) was measured in slices containing nucleus accumbens using fast cyclic voltammetry. DA release induced by single pulse electrical stimulation did not differ between vehicle-, (+)-amphetamine-or quinpirole-treated groups. Multiple pulse stimulation resulted in enhanced DA release in quinpirole-sensitized rats and an attenuation of DA release in (+)-amphetamine-sensitized rats. In the presence of sulpiride, DA release was increased, at low stimulation frequencies, in vehicle- and quinpirole-treated animals, but not in amphetamine-treated animals. The sensitivity of axon terminal D2 DA receptors was assessed in vitro by measuring the concentration of quinpirole required to inhibit single pulse release of DA by 50% (EC(50)). Quinpirole EC(50) was significantly increased in the quinpirole-treated animals and significantly attenuated in the (+)-amphetamine-treated animals. The results suggest that the increase in DA release following quinpirole may arise from the desensitization of release-regulating D2 autoreceptors in the nucleus accumbens. The sensitization of axon terminal D2 autoreceptors and the decrease in DA release following behavioural sensitization with (+)-amphetamine is difficult to reconcile with a unitary explanation of behavioural sensitization to both quinpirole and (+)-amphetamine. It is suggested that the effects following (+)-amphetamine may be secondary to decreased axon traffic caused by DA displacement in the ventral tegmental area, and that the drugs examined in this study may induce behavioural sensitization by different mechanisms at different sites.     

Dopaminergic control of food choice: contrasting effects of SKF 38393 and quinpirole on high-palatability food preference in the rat

The aim of the present study was to determine the behavioural effects of the selective dopamine D1 receptor agonist, SKF 38393, and of the selective dopamine D2/D3 receptor agonist, quinpirole, on the feeding performance of food-deprived rats in a model of food-preference behaviour. The animals were familiarised with a choice between a high-palatability, high-fat, high-sugar food (chocolate biscuits/cookies) and their regular maintenance diet. Following administration of either SKF 38393 (1.0–10.0 mg/kg, s.c.) or quinpirole (0.03–0.3 mg/kg, s.c.), the animals were observed throughout a 15-min test period, and their feeding behaviour was carefully monitored. Other behavioural categories were also observed. The resulting data were subject to a microstructural analysis to determine the loci of the behavioural effects. The results indicated that SKF 38393 and quinpirole had contrasting effects on the preference for the high-palatability chocolate food. SKF 38393 enhanced the preference, whereas quinpirole eliminated it. These data reinforce the view that forebrain dopamine mechanisms are closely involved in responses to high-palatability energy-dense food constituents, including chocolate. The data also indicate that pharmacological characterization is important, such that dopamine receptor subtypes appear to mediate contrasting effects on food preference for a high-fat, high-sugar food. Hence, brain dopamine appears to be involved in potentially complex ways in determining food preferences, and this may carry implications in the growing evidence for a link between brain dopamine and human obesity.     

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.     

Reward-dependent suppression or facilitation of consummatory behaviour by raclopride

Rats were presented for 1 h with 0.7%, 7% or 34% sucrose solutions, either separately with water as an alternative (two-bottle test), or with all three concentrations concurrently available (three-bottle test). In trained animals, 7% sucrose produced the highest intakes in the two-bottle test, but 34% sucrose was preferred in the three-bottle test. In both tests the dopamine D-2 antagonist raclopride (100–400 µg/kg) reduced intake of 0.7% sucrose solution, but increased intake of 34% sucrose; both effects were apparent during the first 5 min of testing. In the two-bottle test, intake of the intermediate 7% concentration showed both effects: an immediate decrease and a later increase. In the three-bottle test, sucrose-naive animals showed a gradual onset of preference for 34% sucrose, and enhancements of intake by raclopride were not at first immediate; immediate enhancements required three sessions of exposure. Raclopride did not alter the consumption of a 0.001% solution of quinine. We consider the implications of these results for theories of neuroleptic drug action.     

Antidepressant-like action of AGN 2979, a tryptophan hydroxylase activation inhibitor, in a chronic mild stress model of depression in rats.

Chronic mild stress (CMS) procedure was used to study an antidepressant-like activity of AGN 2979, a selective inhibitor of tryptophan hydroxylase (TH) activation. At the dose of 4 mg/kg, AGN 2979 fully reversed the CMS-induced reduction in the consumption of 1% sucrose solution. This effect was maintained for at least 1 week after cessation of treatment and no signs of withdrawal were observed in either stressed or control animals receiving AGN 2979. The lower (1 mg/kg) and higher (16 mg/kg) doses were ineffective. The magnitude of action of AGN 2979 in the CMS model was comparable to that of imipramine (10 mg/kg) but its onset of action appears to be faster since the inhibition of sucrose intake in stressed animals was already reversed after the 1st week of AGN 2979 administration while imipramine required 3 weeks of treatment to cause similar effect. These results provide support for the hypothesis that inhibition of TH activation may result in a potent antidepressant activity.     

Drinking sucrose enhances quinpirole-induced yawning in rats

Food and drugs can activate brain dopamine systems and sensitivity to the effects of drugs acting on those systems is influenced by amount and content of food consumed. This study examined the effects of drinking sucrose on behavioral effects of the direct-acting dopamine receptor agonist quinpirole. Male Sprague-Dawley rats (n=6/group) had free access to water or 10% sucrose and quinpirole dose-response curves (yawning and hypothermia) were generated weekly for 8 weeks. Subsequently, all rats drank water for 8 weeks with quinpirole dose-response curves determined on weeks 9, 10, and 16. In rats drinking sucrose, the ascending (D3 receptor-mediated), but not descending (D2 receptor-mediated), limb of the yawning dose-response curve shifted leftward. The D3 receptor-selective antagonist PG01037 shifted the ascending limb of the dose-response curve to the right in all rats. When rats that previously drank sucrose drank water, their sensitivity to quinpirole did not return to normal. Quinpirole-induced hypothermia was not different between groups. These data show that drinking sucrose increases sensitivity to a dopamine D3, but not D2, receptor-mediated effect and that this change is long lasting. Dopamine receptors mediate the effects of many drugs and the actions of those drugs are likely impacted by dietary factors.     

An animal model of anhedonia: attenuation of sucrose consumption and place preference conditioning by chronic unpredictable mild stress

Chronic exposure to very mild unpredictable stress has previously been found to depress the consumption of, and preference for, highly palatable sweet solutions. The present study used the place conditioning procedure to investigate whether these effects result from a decreased sensitivity to reward. Rats were subjected to chronic mild unpredictable stress for a total of 4 weeks. During weeks 3 and 4, they received four training trials, in which rewards were presented in a distinctive environment, and four further non-rewarded trials in a different environment. The rewards used in different experiments were food pellets, dilute (0.7%) and concentrated (34%) sucrose solutions, anddl-amphetamine sulphate (0.5 and 1.0 mg/kg). In all experiments, non-stressed animals showed an increase in preference for the environment associated with reward; in stressed animals, these effects were abolished or greatly attenuated. Chronic unpredictable mild stress, which may be comparable in intensity to the difficulties people encounter in their daily lives, appears to cause a generalized decrease in sensitivity to rewards.     

The role of mesolimbic and nigrostriatal dopamine in latent inhibition as measured with the conditioned taste aversion paradigm

Repeatedly presenting a non-reinforced stimulus normally retards conditioning to this stimulus when it is coupled to a reinforcer. This phenomenon is called latent inhibition. Since latent inhibition is disturbed after systemic administration of amphetamine, the present study investigated the role of the mesolimbic and nigrostriatal dopamine terminal fields in latent inhibition using a conditioned taste aversion (CTA) paradigm. In this paradigm, a 5% sucrose solution was used as the test stimulus and lithium chloride (LiCl) as the CTA inducing drug. The degree of CTA was assessed by measuring the sucrose preference in a two-bottle sucrose/water choice paradigm 24 h after the LiCl injection. Since conditioned taste aversion has so far not been used to evaluate the role of dopamine in latent inhibition, we first studied the effects of systemic application of amphetamine. The results show that intraperitoneal injections of 0.25 or 0.5 mg/kg d-amphetamine sulphate (given at preexposure and conditioning) significantly disrupted latent inhibition, by selectively reducing sucrose preference in the preexposed group. This could not be attributed to a reduced sucrose intake during preexposure or to a conditioned taste aversion effect of amphetamine itself. In experiment 2 local bilateral administration of 10 μg/0.5 μl amphetamine into the nucleus accumbens or the dorsal striatum was given in the pre-exposed and the conditioning phase, after which the rats were allowed to drink for a fixed period of time. The results show a significant reduction in latent inhibition after intrastriatal, but not after intra-accumbens injections of amphetamine. Intra-accumbens injections of amphetamine, however, significantly reduced fluid intake during preexposure and conditioning. In experiment 3, we therefore repeated this experiment, but allowed the animals to drink only a restricted amount of liquid during preexposure and conditioning. Again the results show a disruption of latent inhibition after intrastriatal, but not intra-accumbens injections of amphetamine. These experiments emphasize the importance of the nigrostriatal dopamine system in the disruption of latent inhibition, at least when using the conditioned taste aversion paradigm. A possible mechanism by which the dorsal striatum might influence latent inhibition is discussed. Received: 22 November 1995 /Final version: 20 August 1996     

Differential effects of intra-accumbens and systemic amphetamine on latent inhibition using an on-baseline,within-subject conditioned suppression paradigm

Latent inhibition (LI) is a phenomenon in which repeated, non-reinforced presentation of a stimulus retards subsequent conditioning to that stimulus. Several recent experiments have suggested that LI is abolished following acute, low doses of amphetamine given during pre-exposure and conditioning, and this effect has been attributed to amphetamine-induced changes in dopamine levels in the nucleus accumbens. Experiments 1 and 2 examined the effects of two doses of intra-accumbensd-amphetamine (10 µg/µl and 3 µg/µl) on LI in an on-baseline, within-subject conditioned suppression paradigm. There was no effect of either dose on LI, but a significant disinhibition of conditioned suppression resulted in a retardation of learning. In experiment 3 the effects of a low dose of systemicd-amphetamine (0.5 mg/kg) on latent inhibition were examined. The results replicated the abolition of LI found in previous studies, and demonstrated enhanced post-shock suppression in amphetamine-treated animals. These data provide no evidence for the involvement of the mesolimbic dopamine system in LI.     

The effects of melatonin on the behavioural disturbances induced by chronic mild stress in C3H/He mice

In rodents, exposure to chronic mild stress (CMS) is known to induce unresponsiveness to environmental stimuli, as well as sleep disturbances, suggesting some analogies between this syndrome and human depression. Furthermore, numerous studies reported a decrease in nocturnal melatonin concentration in depressed patients, compared with controls. The present study was conducted to test a possible preventative action of daily treatment with melatonin on behavioural alterations induced in C3H/He mice by CMS exposure. In addition to daily spontaneous locomotor activity and preference for sucrose solution, the emotional behaviour of mice was examined in a stressful situation (light/dark choice test), as well as in a situation devoid of constraining components (free-exploratory paradigm), after three weeks of CMS. The results showed that the behaviour of C3H/He mice was disrupted after CMS. Stressed mice exhibited blunted emotional reactivity in both the light/dark choice test and the free-exploratory situation. While unstressed mice presented no variation in their preference for a sucrose solution, stressed mice presented a decrease in such preference towards the end of the CMS exposure. Furthermore, daily spontaneous locomotor activity of the mice was reduced after CMS. Daily treatment of stressed mice with melatonin was able to prevent several CMS-induced disturbances, except in the light/dark choice test, where melatonin was ineffective. Compared to the effects of 10 mg/kg of fluoxetine, which completely prevented CMS-induced dysregulation of behaviour, melatonin was less effective. The present results support the idea that melatonin may be implicated in an homeostatic system which protects animals from disruptions induced by chronic stress.     

Selective effects of citalopram in a mouse model of stress-induced anhedonia with a control for chronic stress

A stress-induced decrease in sucrose preference in rodents is regarded as an analog of anhedonia, a key symptom of depression. We investigated the effects of citalopram, administrated via drinking water (15 mg/kg/day), in a mouse model of stress-induced anhedonia. In this model, chronic stress induces anhedonia in a subset of C57BL/6N mice, while the remaining animals do not show a hedonic deficit or other depressive-like behaviors, although they are exposed to the same stressors as the anhedonic mice. Pre-stress and post-stress treatment with citalopram counteracted the development and maintenance of anhedonia and rescued normal floating in the forced swim test, demonstrating an antidepressant-like action. During the post-stress treatment, citalopram selectively increased sucrose preference and intake on the fourth week of treatment in anhedonic mice without affecting non-anhedonic animals. Citalopram also decreased elevated water consumption in the anhedonic group. Citalopram, administered 1 week before and during a 4-week stress procedure, decreased the percentage of anhedonic mice and reduced the increase of water intake in stressed mice. This study suggests that our chronic stress paradigm can serve as a model of anhedonia, in which antidepressant treatment is selectively effective in animals with a hedonic deficit.     

Environmental influences on behavioural sensitization to the dopamine agonist quinpirole

A runway was used to measure locomotor responses to quinpirole (200μg/kg), in rats. The locomotor stimulant effect of quinpirole increased progressively over successive trials at 3-day intervals. Animals administered quinpirole in the home cage were also sensitized, but to a lesser degree than animals tested in the runway following quinpirole injections. Exposure to an open field, following quinpirole injections, sensitized responsiveness in the runway to an extent comparable to that seen following runway exposure. Animals exposed to a movable running wheel, following quinpirole injections, were more sensitized to the effect of quinpirole in the runway than animals exposed to a locked running wheel. The results suggest that the extent of sensitization to quinpirole is determined by the behaviour elicited by the drug, rather than the environment in which it is administered. An operant conditioning model is proposed to account for these effects.     

Mesolimbic dopamine D2 receptor plasticity contributes to stress resilience in rats subjected to chronic mild stress

Rationale

Few studies have investigated neurobiological and biochemical differences between stress-resilient and stress-vulnerable experimental animals.

Objectives

We investigated alterations in mesolimbic dopamine D₂ receptor density and mRNA expression level in stressed rats at two time points, i.e. after 2 and 5 weeks of chronic mild stress (CMS).

Methods

We used the chronic mild stress paradigm because it is a well-established animal model of depression. Two groups of stressed rats were distinguished during CMS experiments: (1) stress reactive (70 %), which displayed a decrease in the drinking of a palatable sucrose solution during the stress regimen, and (2) stress resilient (30 %), which exhibited an unaltered drinking profile when compared with the unchallenged control group. [³H]Domperidone was used as a ligand to label dopamine D₂ receptors, and a mixture of three specific oligonucleotides was used to evaluate dopamine D₂ receptor mRNA changes in various regions of the rat brain.

Results

CMS strongly affected the mesolimbic dopamine circuit in stress-resilient group after 2 weeks and stress-reactive group of rats after 5 weeks which exhibited a decrease in the level of dopamine D₂ receptor protein without alterations in D₂ mRNA expression. Stress-resilient animals, but not stress-reactive animals, effectively adapted to the extended stress and coped with it. The increase in D₂ mRNA expression returned the dopamine D₂ receptor density to control levels in stress-resilient rats after 5 weeks of CMS, but not in stress-reactive animals.

Conclusions

These results clearly demonstrate that, despite earlier blunting, the activation of dopamine receptor biosynthesis in the dopamine mesoaccumbens system in stress-resilient rats is involved in active coping with stressful experiences, and it exhibits a delay in time.