Methamphetamine and Dopamine Receptor D1 Regulate Entrainment of Murine Circadian Oscillators

We investigated the effect of methamphetamine (MA) injections on the circadian organization of behavior and individual tissues in the mouse. Scheduled, daily injections of MA resulted in anticipatory activity, with an increase in locomotor activity immediately prior to the time of injection. Daily MA also shifted the peak time of PER2 expression in the liver, pituitary, and salivary glands. It has been suggested that reward pathways, and dopamine signaling in particular, may underlie the effects of MA on the circadian system. To test this hypothesis, we examined the effect of the D1 receptor antagonist {"type":"entrez-protein","attrs":{"text":"SCH23390","term_id":"1052733334","term_text":"SCH23390"}}SCH23390 (SCH) on circadian rhythms. The MA-induced shift in the phase of pituitary and salivary glands was attenuated by pretreatment with the D1 antagonist {"type":"entrez-protein","attrs":{"text":"SCH23390","term_id":"1052733334","term_text":"SCH23390"}}SCH23390 (SCH). Interestingly, daily SCH, administered alone, also affected some circadian oscillators. The livers and lungs (but not pituitaries or salivary glands) of mice treated with daily injections of SCH displayed disrupted rhythms of PER2 expression, suggesting that D1 receptor signaling is important for entrainment of these organs. From these results, we conclude that MA has widespread effects within the circadian system, and that these effects are mediated, at least in part, by the dopaminergic system. This study also identifies a role for dopamine signaling in normal entrainment of circadian oscillators.     

Role of dopamine D1-like receptors in methamphetamine locomotor responses of D2 receptor knockout mice

Behavioral sensitization to psychostimulants manifests as an increased locomotor response with repeated administration. Dopamine systems are accepted to play a fundamental role in sensitization, but the role of specific dopamine receptor subtypes has not been completely defined. This study used the combination of dopamine D2 receptor-deficient mice and a D1-like antagonist to examine dopamine D1 and D2 receptor involvement in acute and sensitized locomotor responses to methamphetamine. Absence of the dopamine D2 receptor resulted in attenuation of the acute stimulant effects of methamphetamine. Mutant and wild-type mice exhibited sensitization that lasted longer within the time period of the challenge test in the mutant animals. Pretreatment with the D1-like receptor antagonist SCH 23390 produced more potent reductions in the acute and sensitized locomotor responses to methamphetamine in D2 receptor-deficient mice than in wild-type mice; however, the expression of locomotor sensitization when challenged with methamphetamine alone was equivalently attenuated by previous treatment with SCH 23390. These data suggest that dopamine D2 receptors play a key role in the acute stimulant and sensitizing effects of methamphetamine and act in concert with D1-like receptors to influence the acquisition of methamphetamine-induced behavioral sensitization, traits that may influence continued methamphetamine use.     

Dopamine D1 receptor signaling system regulates ryanodine receptor expression after intermittent exposure to methamphetamine in primary cultures of midbrain and cerebral cortical neurons

Regulatory mechanisms of ryanodine receptor (RyR) expression are not well known, although methamphetamine (METH) has been reported to up-regulate RyRs in mouse brain. This study investigate regulatory mechanisms of RyR expression by dopaminergic system using the midbrain and cerebral cortical neurons in primary culture intermittently exposed to METH and dopamine receptor (DR) agonists (1 h/day, for 3 days). Intermittent METH (10 μM) exposure enhanced RyR-1 and -2 proteins and their mRNA, but not RyR-3 expression in the both types of the neurons. These METH-induced increases of RyR proteins and their mRNA were dose-dependently blocked by SCH23390 (a selective D(1) DR antagonist), but not a D(2)DR antagonist sulpiride, suggesting a regulatory role of D(1)DRs in RyR expression by METH in these neurons. In cerebral cortical neurons, intermittent SKF82958 (a selective D(1)DR agonist) exposure increased RyR-1 and -2 proteins and their mRNA, whereas quinpirole (a selective D(2)DR agonist) showed no effects. KT5720, a protein kinase A inhibitor, dose-dependently attenuated the METH-stimulated RyR-1 and -2 expressions in cerebral cortical neurons. METH significantly increased phosphorylation of cAMP-response element-binding protein, which was completely suppressed by SCH23390. These results indicate that RyR-1 and -2 expressions are regulated by D(1)DRs via the signal transduction linked to D(1)DRs.     

大鼠鞘内注射多巴胺受体激动剂与拮抗剂对痛及针刺镇痛的影响

在大鼠电刺激甩测痛模型上,应用鞘内注射（ｉｔ）多巴胺（ＤＡ）受体选择性激动剂与拮抗剂,分析大鼠脊髓ＤＡ受体亚型Ｄ１和Ｄ２在痛及针刺镇痛（ＡＡ）中的作用。结果显示,在正常清醒大鼠,ｉｔ Ｄ２受体选择性激动剂,Ｙ１７１５５５（ＬＹ）或Ｄ１／Ｄ２受体激动剂阿朴吗啡（ＡＰＯ）有镇痛作用（呈剂量依赖式增加）,并加强ＡＡ,而ｉｔ Ｄ１受体选择性激动剂ＳＫＦ３８３９３（ＳＫＦ）对痛及ＡＡ均无影响;ｉｔ Ｄ１受体     

Comparison of the Role of D1- and D2-Like Receptors in the CA1 Region of the Hippocampus in the Reinstatement Induced by a Subthreshold Dose of Morphine and Forced Swim Stress in Extinguished Morphine-CPP in Rats

Reward-seeking and relapse to drug use are two characteristics of addiction and reports have indicated the role of hippocampal structures in reward learning. To find the best ways of treatment, the understanding of the neurobiological mechanisms of reward and its involved factors is a must. For this reason, in the present study, we aimed to investigate the role of D1- and D2-like dopamine receptors and compared their activities in the CA1 region, focusing on the reinstatement induced by forced swim stress (FSS) or the combination of FSS and a subthreshold dose of morphine in extinguished morphine-CPP in rats. The rats were bilaterally implanted by two separate cannulas into the CA1 region. The animals received different doses of SCH23390 or sulpiride (0.5, 2, and 4 µg/0.5 µl vehicle/side) into the CA1 region on the reinstatement day and were tested for FSS-induced reinstatement or the combination of FSS and a subthreshold dose of morphine in separate groups. Our findings indicated that the D1- and D2-like receptor antagonists attenuated the reinstatement induced by the combination of FSS and the subthreshold dose of morphine. The behavioral results were more prominent in the groups of animals that received SCH23390 as compared to sulpiride. The data may suggest a role for the dopamine receptors in the CA1 region in relapse to drugs of abuse, which may be induced by exposure to a stressor.     

Behavioral recovery after irreversible inactivation of D-1 and D-2 dopamine receptors

Irreversible inactivation of both D-1 and D-2 dopamine (DA) receptors by N-ethoxycarbonyl-2-ethoxy-1,2-dihydroquinoline (EEDQ) resulted in complete loss of stereotypy response to R-(-)-N-propylnorapomorphine (NPA; 0.1-1.0 mg/kg, s.c.) 24 hr later. Stereotyped sniffing recovered much more rapidly than oral behaviors. The D-2 antagonist sulpiride (200 mg/kg) and the putatively nonselective antagonist cis-flupenthixol (2 mg/kg), administered prior to EEDQ, prevented the loss of NPA-induced sniffing but only partially protected against loss of oral behaviors 24 hr later. Complete protection of both behaviors was seen after pretreatment with a combination of sulpiride and the selective D-1 antagonist SCH 23390 (1 mg/kg); pretreatment with the selective D-1 antagonist SCH 23390 alone, however, did not modify the rate of recovery of either behavioral response. The results suggest that either different populations of DA receptors mediate expression of these behaviors or stimulation of a small fraction of the total DA receptor pool may be sufficient to elicit sniffing but not oral responses. Furthermore, maintaining a normal complement of D-2 rather than D-1 receptors appears to be a critical determinant for the elicitation of these behaviors.     

Restraint Stress Potentiated Morphine Sensitization: Involvement of Dopamine Receptors within the Nucleus Accumbens

Sensitization to psychostimulant drugs, as well as morphine, subjected to cross-sensitization with stress. The development of morphine sensitization is associated with enhancements in dopamine overflow in the Nucleus accumbens (NAc). This study aimed to examine the role of accumbal D1/D2-like dopamine receptors in restraint stress (RS) induced sensitization to morphine antinociceptive effects. Adult male Wistar rats weighing 220–250 g underwent stereotaxic surgery. Two stainless steel guide cannulae were bilaterally implanted, 1 mm above the NAc injection site. Different solutions of SCH-23390, as a D1-like receptor antagonist or sulpiride, as a D2-like receptor antagonist, were microinjected into the NAc five min before exposure to RS. Restraint stress lasted for 3 h, 10 min after RS termination; animals received a subcutaneous injection of morphine (1 mg/kg) for 3 consecutive days. The procedure was followed by a 5-day drug and/or stress-free period. After that, on the 9th day, the nociceptive response was evaluated by the tail-flick test. The results revealed that intra-NAc administration of D1/D2-like dopamine receptor antagonists, SCH-23390 or sulpiride, respectively, blocked morphine sensitization-induced by RS and morphine co-administration in rats for three consecutive days. This work provides new insight into the determinant role of accumbal dopamine receptors in morphine sensitization produced by RS-morphine co-administration.

     

SCH23390 causes persistent antidopaminergic effects in vivo: evidence for longterm occupation of receptors

SCH23390 has neurochemical properties characteristic of a specific D1 dopamine receptor antagonist. However, it is a potent inhibitor of dopamine-mediated behaviors which previously had been thought to be linked to D2 receptors. The metabolism of SCH23390 following parenteral administration to rats was much more rapid in the periphery than in brain, and SCH23390 had behavioral effects long after its circulating concentration had declined below detectable levels. Furthermore, the stimulation of adenylate cyclase by dopamine was attenuated in striatal homogenates taken from rats treated with SCH23390 as much as twelve hours before sacrifice. Pretreatment with cis-flupenthixol, a compound with equivalent D1 potency in vitro, failed to inhibit dopamine-stimulated adenylate cyclase activity one or four hours following injection, despite the fact that this dose produced significant behavioral effects. These data indicate that SCH23390 may act with unusual tenacity at certain sites in the central nervous system.     

Endogenous Dopamine Increases Extracellular Concentrations of Glutamate and GABA in Striatum of the Freely Moving Rat: Involvement of D1 and D2 Dopamine Receptors

Interactions between endogenous dopamine, glutamate, GABA, and taurine were investigated in striatum of the freely moving rat by using microdialysis. Intrastriatal infusions of the selective dopamine uptake inhibitor nomifensine (NMF) were used to increase the endogenous extracellular dopamine. NMF produced a dose-related increase in extracellular dopamine and also increased extracellular concentrations of glutamate, GABA, and taurine. Extracellular increases of dopamine were significantly correlated with extracellular increases of glutamate and GABA, but not taurine. To investigate whether the increased extracelular dopamine produced by NMF was responsible for the concomitant increase of glutamate and GABA, D1, and D2 receptor antagonists were used. Dopamine receptor antagonists D1 (SCH23390) and D2 (sulpiride) significantly attenuated the increases of glutamate and GABA produced by NMF. These data suggest that endogenous dopamine, through both D1 and D2 dopamine receptors, plays a role in releasing glutamate and GABA in striatum of the freely moving rat.     

Involvement of dopamine receptors in binge methamphetamine-induced activation of endoplasmic reticulum and mitochondrial stress pathways

Single large doses of methamphetamine (METH) cause endoplasmic reticulum (ER) stress and mitochondrial dysfunctions in rodent striata. The dopamine D(1) receptor appears to be involved in these METH-mediated stresses. The purpose of this study was to investigate if dopamine D(1) and D(2) receptors are involved in ER and mitochondrial stresses caused by single-day METH binges in the rat striatum. Male Sprague-Dawley rats received 4 injections of 10 mg/kg of METH alone or in combination with a putative D(1) or D(2) receptor antagonist, SCH23390 or raclopride, respectively, given 30 min prior to each METH injection. Rats were euthanized at various timepoints afterwards. Striatal tissues were used in quantitative RT-PCR and western blot analyses. We found that binge METH injections caused increased expression of the pro-survival genes, BiP/GRP-78 and P58(IPK), in a SCH23390-sensitive manner. METH also caused up-regulation of ER-stress genes, Atf2, Atf3, Atf4, CHOP/Gadd153 and Gadd34. The expression of heat shock proteins (HSPs) was increased after METH injections. SCH23390 completely blocked induction in all analyzed ER stress-related proteins that included ATF3, ATF4, CHOP/Gadd153, HSPs and caspase-12. The dopamine D(2)-like antagonist, raclopride, exerted small to moderate inhibitory influence on some METH-induced changes in ER stress proteins. Importantly, METH caused decreases in the mitochondrial anti-apoptotic protein, Bcl-2, but increases in the pro-apoptotic proteins, Bax, Bad and cytochrome c, in a SCH23390-sensitive fashion. In contrast, raclopride provided only small inhibition of METH-induced changes in mitochondrial proteins. These findings indicate that METH-induced activation of striatal ER and mitochondrial stress pathways might be more related to activation of SCH23390-sensitive receptors.     

No change in dopamine D1 receptor in vivo binding in rats after sub-chronic haloperidol treatment

A frequent side effect in the long-term treatment of schizophrenia with the dopamine D2 antagonist haloperidol (HAL) is the appearance of tardive dyskinesia or, in animals, of repetitive involuntary vacuous chewing movements (VCMs). In rats, chronic HAL-induced or D1 receptor-stimulated VCMs are suppressed by D1 antagonists, suggesting that this behavioral supersensitivity is mediated by D1 receptors. The goal of this study was to investigate in vivo the possible relationship between D1 receptor binding and D1-mediated behavioral supersensitivity, after subchronic HAL treatments. D1 agonist R-SKF 82957 and antagonist SCH 23390, both labeled with carbon-11, were used to assess in vivo D1 receptor binding. Rats were treated with HAL (1.5 mg/kg, i.p.) or vehicle for 21 days, followed by a 4 day washout period. No significant difference was found in the regional brain binding of either radioligand. D1 receptor-mediated behaviors including VCMs, grooming, and rearing were measured in control or HAL-treated rats. VCMs were significantly increased in HAL-treated rats, suggesting D1 receptor stimulation and possibly receptor supersensitivity. This study failed to link the purported D1 receptor-mediated behaviors with in vivo receptor binding measures of R-[11C]SKF 82957 or [11C]SCH 23390 in rat brain regions.     

Affinity chromatography of the D1 dopamine receptor from rat corpus striatum

The D1 dopamine receptor from rat corpus striatum has been purified 200-250-fold by using a newly developed biospecific affinity chromatography matrix based on a derivative of the D1 selective antagonist SCH 23390. This compound, (RS)-5-(4-aminophenyl)-8-chloro-2,3,4,5-tetrahydro-3-methyl-1H-3-benz azepin-7-o l (SCH 39111), possesses high affinity for the D1 receptor and, when immobilized on Sepharose 6B through an extended spacer arm, was able to adsorb digitonin-solubilized D1 receptors. The interaction between the solubilized receptor and the affinity matrix was biospecific. Adsorption of receptor activity could be blocked in a stereoselective fashion [SCH 23390 greater than SCH 23388; (+)-butaclamol greater than (-)-butaclamol]. The elution of [3H]SCH 23390 activity from the gel demonstrated similar stereoselectivity for antagonist ligands. Agonists eluted receptor activity with a rank order of potency consistent with that of a D1 receptor [apomorphine greater than dopamine greater than (-)-epinephrine much greater than LY 171555 greater than serotonin]. SCH 39111-Sepharose absorbed 75-85% of the soluble receptor activity, and after the gel was washed extensively, 35-55% of the absorbed receptor activity could be eluted with 100 microM (+)-butaclamol with specific activities ranging from 250 to 450 pmol/mg of protein. The affinity-purified receptor retains the ligand binding characteristics of a D1 dopamine receptor. This affinity chromatography procedure should prove valuable in the isolation and molecular characterization of the D1 dopamine receptor.     

Evidence for a dopamine receptor subtype sensitive to combination of D1 with D2 antagonist in measurement of G-protein activity using rat striatal membranes

In rat striatal membranes, various kinds of dopamine receptor agonists stimulated low-Km GTPase activity in a concentration-dependent manner. This stimulation by bromocriptine, pergolide and apomorphine was partially inhibited by sulpiride (SUL), a D2-selective antagonist, markedly inhibited by combination of SUL with SCH 23390 (SCH), a D1-selective antagonist, and not modified by SCH alone. The stimulation by BAM-1110 was resistant to SUL or SCH alone but abolished by combination of SUL with SCH. These findings suggest the presence of another subtype of a dopamine receptor in a functional in vitro bioassay system in rat striata.     

Dopamine induces hyperpolarization of locust salivary gland acinar cells via D(1)-like receptors

The effect of dopamine on the salivary gland acinar cells of the locust was examined using conventional intracellular recording techniques. Application of dopamine induced a reversible, dose-dependent hyperpolarization of the acinar cells, with an EC(50) of 0.1 &mgr;M dopamine. We investigated the pharmacology of the dopamine receptor mediating hyperpolarization of the acinar cells using a range of dopaminergic agonists and antagonists. The effect of dopamine could be mimicked by the selective D(1) receptor agonist SKF82958, whilst the D(2) receptor agonists PPHT-HCl and TNPA-HBr were far less potent at inducing hyperpolarization. The receptor also showed selectivity to certain synthetic D(1)-like agonists. SKF82958 was much more effective at inducing a hyperpolarization than SKF81297. The dopamine-induced hyperpolarization of locust acinar cells could be blocked using the selective D(1) receptor antagonist SCH23390 whilst the D(2) receptor antagonists sulpiride and spiperone were inactive. The rank order of potency of several dopaminergic agonists and antagonists was obtained and suggests that the dopamine receptor mediating the hyperpolarization in locust salivary gland acinar cells is similar to a mammalian D(1) receptor. Stimulation of the salivary nerve mimicked the effect of dopamine on the acinar cells, inducing a rapid reversible hyperpolarization. This neurally-evoked hyperpolarization of the locust acinar cells was suppressed using 1.0 &mgr;M SCH23390, whilst 10 &mgr;M sulpiride was inactive. This demonstrated that both exogenously applied dopamine and endogenously released dopamine are probably acting on the same receptor.     

Two kinds of mitogen-activated protein kinase phosphatases, MKP-1 and MKP-3, are differentially activated by acute and chronic methamphetamine treatment in the rat brain

Two functionally different MAP kinase phosphatases (MKPs) were investigated to clarify their roles in behavioral sensitization to methamphetamine (METH). MKP-1 mRNA levels increased substantially by about 60-300% in a range of brain regions, including several cortices, the striatum and thalamus 0.5-1 h after acute METH administration. After chronic METH administration its increase was less pronounced, but a more than 50% increase was still seen in the frontal cortex. MKP-1 protein levels also increased 3 h after acute or chronic METH administration. MKP-3 mRNA levels increased by about 30-50% in several cortices, the striatum and hippocampus 1 h after acute METH administration, but only in the hippocampus CA1 after chronic METH administration. Pre-treatment with the D(1) dopamine receptor antagonist, SCH23390, attenuated the METH-induced increase of MKP-1 and MKP-3 mRNA in every brain region, while pre-treatment with the NMDA receptor antagonist, MK-801, attenuated it in some regions. These findings suggest that in METH-induced sensitization, MKP-1 and MKP-3 play important roles in the neural plastic modification in widespread brain regions in the earlier induction process, but in the later maintenance process, they do so only in restricted brain regions such as MKP-1 in the frontal cortices and MKP-3 in the hippocampus.     

Cross-talk between M2 muscarinic and D1 dopamine receptors in the cat adrenal medulla.

In the study reported here we have reached two conclusions. First, the cat adrenal medulla chromaffin cell possesses a dopamine D1 receptor that seems to be coupled to an adenylyl cyclase. Second, this receptor regulates the muscarinic-mediated catecholamine release response through a negative feed-back loop which uses cyclic AMP as a second messenger. These conclusions are supported by the following findings: (i) SKF38393 (a selective D1 receptor agonist), but not quinpirole (a selective D2 agonist), inhibits the methacholine-mediated catecholamine release responses in a concentration-dependent manner (IC50 of around 1-2 microM). (ii) SCH23390 (a selective D1 antagonist), but not sulpiride (a selective D2 antagonist), reversed by 70% the inhibitory effects of SKF38393. (iii) Dibutyril cyclic AMP (500 microM) inhibited by 80% the secretory effects of methacholine.     

Behavioural motor effects of MK-801 and DNQX parenteral administration in adult cats: dose-response analysis. Modulatory role of dopaminergic D1 and D2 antagonists on MK-801 induced motor behaviours

1. Administration of MK-801 a selective antagonist of the NMDA receptors (50, 100 and 150 micrograms/kg, s.c.) elicited in adult cats ataxia and loss of equilibrium. A dose-response effect was observed. 2. Administration of DNQX, a selective antagonist of the non-NMDA receptors, even with doses 20 times higher than those employed with MK-801, did not produce any behavioural disturbances. 3. Previous injection of SCH 23390, a selective parenteral antagonist of dopamine D1 receptor, reduced significantly the intense ataxic effects of MK-801, while sulpiride only increased the latency of the symptoms. 4. The results are discussed considering the reported interactions between the dopaminergic and glutamatergic systems.     

Identification of D1-like dopamine receptors on human blood platelets

Dopamine is able to inhibit the epinephrine-induced aggregation of human blood platelets, but the mechanism of action has not been elucidated. In this study we report that membranes from human blood platelets possess high affinity, saturable and stereoselective binding sites for the D1 dopamine receptor antagonist (3H) SCH 23390. (3H) SCH 23390 appeared to label a single class of binding sites with a Bmax of 18.6 +/- 1.6 fmol/mg protein and a KD of 0.8 nM. The potencies of different dopaminergic antagonists and agonists in displacing (3H) SCH 23390 from blood platelet membranes were similar to those obtained for striatal membranes. Unlike the classically defined D1 receptors, e.g. those in striatum, the D1 receptor sites on platelets appeared not to be coupled to the adenylate cyclase system, hence the term "D1-like". The D1 agonist SKF 38393 was more potent than dopamine in inhibiting platelet aggregation induced by epinephrine, and the effects of dopamine and SKF 38393 were prevented by SCH 23390. These results suggest that the inhibitory action of dopamine on the epinephrine-induced platelet aggregation is mediated through these D1-like receptors.     

Dopamine D1 receptors characterized with [3H]SCH 23390. Solubilization of a guanine nucleotide-sensitive form of the receptor

Dopamine D1 receptors were solubilized from canine and bovine striatal membranes with the detergent digitonin. The receptors retained the pharmacological characteristics of membrane-bound D1 receptors, as assessed by the binding of the selective antagonist [3H]SCH 23390. The binding of [3H]SCH 23390 to solubilized receptor preparations was specific, saturable, and reversible, with a dissociation constant of 5 nM. Dopaminergic antagonists and agonists inhibited [3H]SCH 23390 binding in a stereoselective and concentration-dependent manner with an appropriate rank order of potency for D1 receptors. Moreover, agonist high affinity binding to D1 receptors and its sensitivity to guanine nucleotides was preserved following solubilization, with agonist dissociation constants virtually identical to those observed with membrane-bound receptors. To ascertain the molecular basis for the existence of an agonist-high affinity receptor complex, D1 receptors labeled with [3H] dopamine (agonist) or [3H]SCH 23390 (antagonist) prior to, or following, solubilization were subjected to high pressure liquid steric-exclusion chromatography. All agonist- and antagonist-labeled receptor species elute as the same apparent molecular size. Treatment of brain membranes with the guanine nucleotide guanyl-5'-yl imidodiphosphate prior to solubilization prevented the retention of [3H]dopamine but not [3H]SCH 23390-labeled soluble receptors. This suggests that the same guanine nucleotide-dopamine D1 receptor complex formed in membranes is stable to solubilization and confers agonist high affinity binding in soluble preparations. These results contrast with those reported on the digitonin-solubilized dopamine D2 receptor, and the molecular mechanism responsible for this difference remains to be elucidated.     

Repeated treatment with imipramine, fluvoxamine and tranylcypromine decreases the number of escape failures by activating dopaminergic systems in a rat learned helplessness test.

Chronic administration of antidepressants has been shown to reduce the number of escape failures in the rat learned helplessness test (LH). In the present study we investigated the role of D1, D2 and D3 receptors in mediating this effect. In our first series of experiments, we demonstrated that SKF38393, D1 receptor agonist, in a dose of 2.5 mg/kg (i.p.) and quinpirole, D2 receptor agonist in a dose of 0.5 mg/kg (i.p.), significantly decreased the number of escape failures in LH, and these were reversed by SCH23390 (0.015 mg/kg), D1 receptor antagonist, and by sulpiride (25 mg/kg), D2 receptor antagonist, respectively. In contrast, 7-OH-DPAT, a D3 receptor agonist, in a dose of 10 mg/kg (i.p.) did not affect the number of escape failures in LH. In a second series of experiments, we showed that eight days of repeated treatment with imipramine (10 mg/kg, p.o.), fluvoxamine (1.25 mg/kg, p.o.) and tranylcypromine (1.25 mg/kg, p.o.) significantly decreased the number of escape failures in LH. The decrease in escape failures seen with use of imipramine and tranylcypromine was reversed by sulpiride in LH, but not by SCH23390. On the other hand, the effect of fluvoxamine was reversed by both SCH23390 and sulpiride. These findings indicate that stimulation of D1 and D2 receptors decreased the number of escape failures in LH, respectively. Thus, D2 and/or D1 receptors are probably involved in the decreased number of escape failures in case of repeated treatment with antidepressants in LH.