The H3 antagonist, ciproxifan, alleviates the memory impairment but enhances the motor effects of MK-801 (dizocilpine) in rats

Antagonists of H₃-type histamine receptors exhibit cognitive-enhancing properties in various memory paradigms as well as evidence of antipsychotic activity in normal animals. The present study determined if a prototypical H₃ antagonist, ciproxifan, could reverse the behavioral effects of MK-801, a drug used in animals to mimic the hypoglutamatergic state suspected to exist in schizophrenia. Four behaviors were chosen for study, locomotor activity, ataxia, prepulse inhibition (PPI), and delayed spatial alternation, since their modification by dizocilpine (MK-801) has been well characterized. Adult male Long-Evans rats were tested after receiving a subcutaneous injection of ciproxifan or vehicle followed 20 min later by a subcutaneous injection of MK-801 or vehicle. Three doses of MK-801 (0.05, 0.1, & 0.3 mg/kg) increased locomotor activity. Each dose of ciproxifan (1.0 & 3.0 mg/kg) enhanced the effect of the moderate dose of MK-801, but suppressed the effect of the high dose. Ciproxifan (3.0 mg/kg) enhanced the effects of MK-801 (0.1 & 0.3 mg/kg) on fine movements and ataxia. Deficits in PPI were observed after treatment with MK-801 (0.05 & 0.1 mg/kg), but ciproxifan did not alter these effects. Delayed spatial alternation was significantly impaired by MK-801 (0.1 mg/kg) at a longer delay, and ciproxifan (3.0 mg/kg) alleviated this impairment. These results indicate that some H₃ antagonists can alleviate the impact of NMDA receptor hypofunction on some forms of memory, but may exacerbate its effect on other behaviors.     

Neuropeptide S attenuates neuropathological, neurochemical and behavioral changes induced by the NMDA receptor antagonist MK-801

Neuropeptide S (NPS) and its cognate receptor were reported to mediate anxiolytic-like and arousal effects. NPS receptors are predominantly expressed in the brain, especially in limbic structures, including amygdala, olfactory nucleus, subiculum and retrosplenial cortex. In contrast, the NPS precursor is expressed in only a few brainstem nuclei where it is co-expressed with various excitatory transmitters, including glutamate. The current study investigates interactions of the NPS system with glutamatergic neurotransmission. It has been suggested that dysfunctions in glutamatergic neurotransmission via N-methyl-d-aspartate (NMDA) receptors might be involved in the pathophysiology of schizophrenia since NMDA receptor antagonists, such as MK-801, have been shown to induce psychotic-like behavior in humans and animal models. Also, MK-801 is known to produce histological changes such as cytoplasmic vacuoles in retrosplenial cortex neurons where NPS receptors are highly expressed. In this study we show that NPS is able to alleviate neuropathological, neurochemical and behavioral changes produced by NMDA receptor antagonists. NPS treatment attenuated MK-801-induced vacuolization in the rat retrosplenial cortex in a dose-dependent manner that can be blocked by an NPS receptor-selective antagonist. NPS also suppressed MK-801-induced increases of extracellular acetylcholine levels in the retrosplenial cortex. In the prepulse inhibition (PPI) assay, animals pretreated with NPS recovered significantly from MK-801-induced disruption of PPI. Our study suggests that NPS may have protective effects against the neurotoxic and behavioral changes produced by NMDA receptor antagonists and that NPS receptor agonists may elicit antipsychotic effects.     

mGluR5, but not mGluR1, antagonist modifies MK-801-induced locomotor activity and deficit of prepulse inhibition

Hypoglutamatergic theory of schizophrenia is substantiated by observation that high affinity uncompetitive antagonists of NMDA receptors such as PCP can induce psychotic symptoms in humans. Recently, metabotropic glutamate receptors of the mGluR5 type have also been discussed as possible players in this disease. However, less is known about the potential contribution of mGluR1 in schizophrenia. Therefore, the aim of the present study was to compare the effect of selective mGluR1 antagonist EMQMCM, (3-ethyl-2-methyl-quinolin-6-yl)-(4-methoxy-cyclohexyl)-methanone methanesulfonate) and mGluR5 antagonist (MTEP ([(2-methyl-1, 3-thiazol-4-yl) ethynyl] pyridine) either alone or in combination with (+)MK-801 in a prepulse inhibition (PPI) model and locomotor activity tests. Additionally, the effect of both mGluR1 and mGluR5 antagonists on (+)MK-801-evoked ataxia was tested. In contrast to (+)MK-801, which induced disruption of PPI, neither MTEP (1.25-5 mg/kg) nor EMQMCM (0.5-4 mg/kg) altered the PPI. However, MTEP, but not EMQMCM, enhanced disruption of PPI induced by (+)MK-801. Although neither mGluR1 nor mGluR5 antagonists given alone changed locomotor activity of rats, MTEP at 5 mg/kg potentiated the effect of (+)MK-801 while EMQMCM (up to 4 mg/kg) turned out to be ineffective. On the other hand, EMQMCM, but not MTEP, enhanced ataxia evoked by MK-801. The present results demonstrate that blockade of mGluR1 and mGluR5 evokes different effects on behavior induced by NMDA receptor antagonists.     

Development of both conditioning and sensitization of the behavioral activating effects of amphetamine is blocked by the non-competitive NMDA receptor antagonist,MK-801

The non-competitive N-methyl-d-aspartate (NMDA) receptor antagonist, MK-801, has been shown to block the development of sensitization of the behavioral activating effects of amphetamine. Three experiments were designed to determine in rats whether MK-801 had its effects through interference with long-term changes underlying sensitization, per se, or through interference with the development of conditioning of the drug effect to the environment where the drug was given. In experiment 1, conditioning was promoted by explicitly pairing amphetamine (1.5 mg/kg, IP) with the testing environment. In experiment 2, a random-pairing procedure was used to eliminate the possibility of association between the drug and a specific context. Experiment 3 was carried out to assess the duration of the blockade of sensitization by MK-801. The effect of MK-801 (0.25 mg/kg, IP) during amphetamine pre-exposure was studied in tests for conditioning (following saline injections, experiment 1) and in tests for sensitization (following 0.75 mg/kg amphetamine, experiments 1, 2 and 3). It was found in experiment 1 that MK-801 given with amphetamine during the amphetamine pre-exposure phase blocked the development of both conditioning activity and environment-specific sensitization to amphetamine. The results of experiment 2, showing that sensitization to amphetamine was blocked by MK-801 even when conditioning was prevented, suggest that the two effects of MK-801 are independent, and may implicate different sites of action. Experiment 3 showed that the blockade of sensitization by MK-801 was evident in tests made 10 days after pre-exposure to amphetamine, supporting the view that MK-801 interferes with long-term changes underlying sensitization to amphetamine.     

Effects of nicotine on quinpirole- and dizocilpine (MK-801)-induced sensorimotor gating impairments in rats

RATIONALE: Prepulse inhibition (PPI) of the acoustic startle response (ASR) is used as an index of sensorimotor gating to assess preattentive processes. Impairments in PPI have been observed in many neuropsychiatric disorders, especially schizophrenia. Administration of the glutamate N-methyl-D: -aspartate receptor antagonist dizocilpine (MK-801) or dopamine receptor (D2/D3) agonist quinpirole (QNP) results in impairment (reduction) of PPI in rats. Nicotine, on the other hand, may have beneficial effects on attentional/cognitive functions. OBJECTIVE: The purpose of the current set of experiments was to investigate the effects of acute and chronic nicotine on MK-801- and QNP-induced PPI impairments. MATERIALS AND METHODS: Adult female Sprague-Dawley rats were treated acutely or chronically by various doses of nicotine alone or followed by an acute dose of MK-801 (0.15 mg/kg) or QNP (0.5 mg/kg). All drugs were administered intraperitoneally. Controls received saline in lieu of any drug, and ASR and PPI in each animal was evaluated 10 min after the last injection. RESULTS: Both MK-801 and QNP consistently impaired PPI. Administration of nicotine acutely (0.05-0.4 mg/kg) or chronically (0.2 or 0.4 mg/kg daily for 1 week) did not have any effect of its own on ASR or PPI or on MK-801-induced PPI impairment. Acute administration of 0.2 mg/kg nicotine did not have any effect on QNP-induced reduction in PPI, whereas the higher dose of 0.4 mg/kg significantly attenuated this impairment. Chronic daily administration of either 0.2 or 0.4 mg/kg nicotine for 1 week nearly normalized the QNP-induced impairments in PPI. CONCLUSION: The effect of nicotine on sensorimotor gating is dependent on the procedure as well as the dose of nicotine and appears to be efficacious against dopaminergic rather than glutamatergic disruption of PPI in rats.     

A low dose of the alpha<Subscript>2</Subscript> agonist clonidine ameliorates the visual attention and spatial working memory deficits produced by phencyclidine administration to rats

Rationale Psychotomimetic N-methyl-d-aspartate/glutamate receptor antagonists, such as phencyclidine (PCP), have been shown to produce a spectrum of behavioral, neurochemical and anatomical changes in rats that are relevant to aspects of schizophrenia, including impairments of working memory and visual attention. The alpha₂ noradrenergic receptor agonist clonidine prevents some of the behavioral effects of NMDA antagonists, suggesting that monoaminergic systems mediate some aspects of these deficits.Objectives We sought to determine the ability of clonidine to modify the PCP-induced deficits of visual attention and spatial working memory in rats.Results In a lateralized reaction time task, a lower dose of clonidine (10 g/kg) ameliorated the impairment of choice accuracy produced by PCP (2.5 mg/kg, IP), while the higher dose of clonidine (50 g/kg) slowed response times and induced a deficit of choice accuracy on its own. The high dose of clonidine effectively prevented the motor impulsivity produced by PCP. In addition, clonidine (10 g/kg) prevented PCP-induced performance deficits in a delayed non-match to sample task.Conclusions These data indicate that clonidine may attenuate deficits of attention and working memory produced by PCP, perhaps in part by preventing some of the downstream neurochemical and anatomical effects of this psychotomimetic drug.     

Differential effects of 7-OH-DPAT and apomorphine on hyperactivity induced by MK-801 (dizocilpine) in rats

Recent experiments from this laboratory demonstrated synergistic locomotor depressant effects of AMPA/kainate receptor blockade and D(2/3) dopamine (DA) receptor stimulation. This study explored functional interactions between DA and glutamate (Glu) systems using the NMDA receptor antagonist MK-801 and the DA receptor agonists 7-OH-DPAT and apomorphine. Using photocell locomotor activity boxes, systemic effects of MK-801 in combination with 7-OH-DPAT (0.03 mgkg(-1) SC, n=8) or a pre-synaptically effective dose of apomorphine (0.05 mgkg(-1) SC, n=6) were measured in male Sprague-Dawley rats. Effects of bilateral applications of MK-801 and 7-OH-DPAT into the nucleus accumbens (NAS) shell subregion were also investigated (n=7). When given alone, MK-801 (0.13 mgkg(-1) or 0.66 microg intra-NAS shell) increased horizontal locomotor activity, while 7-OH-DPAT (0.03 mgkg(-1)) or apomorphine (0.05 mgkg(-1)) decreased this measure. Co-administration of 7-OH-DPAT (systemically or into the NAS shell) completely blocked MK-801 induced hyperactivity. In contrast, MK-801 and apomorphine demonstrated additive effects. Stimulation of D(3) DA receptors may therefore block the hyperactivity induced by NMDA receptor antagonism, and the NAS shell is an important site for this interaction. The differential effects of the DA agonists on hyperactivity induced by NMDA receptor blockade support the proposal that 7-OH-DPAT may induce hypoactivity by stimulation of postsynaptic D(3) DA receptors.     

Effects of the cannabinoid CB<Subscript>1</Subscript> receptor antagonist rimonabant on distinct measures of impulsive behavior in rats

Rationale Pathological impulsivity is a prominent feature in several psychiatric disorders, but detailed understanding of the specific neuronal processes underlying impulsive behavior is as yet lacking. Objectives As recent findings have suggested involvement of the brain cannabinoid system in impulsivity, the present study aimed at further elucidating the role of cannabinoid CB₁ receptor activation in distinct measures of impulsive behavior. Materials and methods The effects of the selective cannabinoid CB₁ receptor antagonist, rimonabant (SR141716A) and agonist WIN55,212-2 were tested in various measures of impulsive behavior, namely, inhibitory control in a five-choice serial reaction time task (5-CSRTT), impulsive choice in a delayed reward paradigm, and response inhibition in a stop-signal paradigm. Results In the 5-CSRTT, SR141716A dose-dependently improved inhibitory control by decreasing the number of premature responses. Furthermore, SR141716A slightly improved attentional function, increased correct response latency, but did not affect other parameters. The CB₁ receptor agonist WIN55,212-2 did not change inhibitory control in the 5-CSRTT and only increased response latencies and errors of omissions. Coadministration of WIN55,212-2 prevented the effects of SR141716A on inhibitory control in the 5-CSRTT. Impulsive choice and response inhibition were not affected by SR141716A at any dose, whereas WIN55,212-2 slightly impaired response inhibition but did not change impulsive choice. Conclusions The present data suggest that particularly the endocannabinoid system seems involved in some measures of impulsivity and provides further evidence for the existence of distinct forms of impulsivity that can be pharmacologically dissociated.     

Effects of haloperidol, clozapine, and quetiapine on sensorimotor gating in a genetic model of reduced NMDA receptor function

Rationale Reduced N-methyl d-aspartate (NMDA) receptor function is hypothesized to contribute to the pathophysiology of schizophrenia. In order to model chronic and developmental NMDA receptor hypofunction, a mouse line was developed that expresses low levels of the NMDA R1 (NR1) subunit of the NMDA receptor. These mice show increased acoustic startle reactivity and deficits in prepulse inhibition (PPI) of acoustic startle. Objectives The present study tested the hypothesis that these altered acoustic startle responses in the NR1 hypomorphic (NR1−/−) mice would be affected by antipsychotic drug treatment. Methods Mice were injected with drugs 30 min before assessment of acoustic startle responses with and without prepulse stimuli. Results Haloperidol (0.5 or 1.0 mg/kg) did not reduce the increased startle reactivity in the NR1−/− mice, but did increase PPI in both the mutant and wild type mice. Clozapine (3 mg/kg) and quetiapine (20 mg/kg) reduced startle magnitude and increased PPI in both the wild type and mutant mice. The antidepressant drug imipramine (10 and 20 mg/kg) had minimal effects on startle amplitude in NR1−/− or wild type mice. However, for the 20-mg/kg dose of imipramine, a significant increase in PPI was observed in the wild type animals, but not in the mutant mice. Conclusions The results demonstrate that PPI can be increased in a mouse model of chronic NMDA receptor hypofunction by typical and atypical antipsychotic drugs. The similar effects of typical and atypical antipsychotic drugs to increase PPI in the wild type and mutant mice indicates that the assessment of behavior of the NR1 hypomorphic mice in the PPI paradigm offers no advantage over the wild type controls for identifying new clozapine-like drugs.     

Effects of MK-801, a non-competitive NMDA antagonist,on linguopharyngeal events in rats

The effects of MK-801 at doses from 0.005 to 1 mg/kg IP on linguopharyngeal events (protrusions, retrusions and swallows) were determined in rats to find out whether MK-801 resembles ketamine in its capacity to increase the frequency of recurrence of such events that we have demonstrated in previous studies. All rats receiving a dose of 0.05 mg/kg or higher showed an increase in linguopharyngeal event frequency within 5 min and this enhancement (3-fold from baseline level) was maintained for longer than 1 h. At the lowest dose of 5 µg/kg the effect lasted only very briefly. A general increase in motor behavior was also observed within 10 min of drug administration. More complex patterns of motor behavior, consisting of stereotypical head bobbing, paw movements reminiscent of walking activity, nystagmus, and ataxia were observed with doses of 0.25 mg/kg and higher. All rats showed a marked startle response at early stages post-injection and hypersensitivity to external stimuli such as noise or movement in the room. However, there was an absolute lack of coordinated avoidance responses normally associated with such startle responses or arousing stimuli.     

MK-801 prevents the enhanced behavioural response to apomorphine elicited by repeated electroconvulsive treatment in mice

Repeated administration of electroconvulsive stimuli (ECS) to mice once daily for a period of 7 days results in an enhanced locomotor response induced by apomorphine (1.0 mg/kg, IP). Pretreatment (30 min) with the N-methyl-d-aspartate (NMDA) receptor antagonist, MK-801 (0.01–1.0 mg/kg IP), suppressed ECS-induced seizure activity in a dose-dependent manner. MK-801 (0.01 and 0.033 mg/kg, IP) given 30 min before each ECS dose-dependently decreased apomorphine-mediated responses. Administration of MK-801 (0.033 mg/kg IP) 30 min after each convulsion had the same effect. These results indicate that MK-801 can abolish the ECS-induced enhancement of dopamine-mediated behaviour possibly by interfering with postictal processes. Thus, NMDA receptors seem to be involved in the behavioural changes and presumably also in the neural adaptations produced by repeated ECS.     

FAUC 213, a highly selective dopamine D<Subscript>4</Subscript> receptor full antagonist,exhibits atypical antipsychotic properties in behavioural and neurochemical models of schizophrenia

Rationale 2-[4-(4-Chlorophenyl)piperazin-1-ylmethyl]pyrazolo[1,5-a]pyridine (FAUC 213) is a highly selective antagonist at the dopamine D₄ receptor subtype. It was designed as a derivative of two partial antagonists and has been proven to be a complete antagonist in mitogenesis assay.Objectives In the present study, FAUC 213 was examined for antipsychotic properties in animal models of behavioural neurobiology and neurochemistry.Methods Different concentrations of FAUC 213 were screened for effects on spontaneous, as well as amphetamine-induced, locomotor activity and apomorphine-induced prepulse disruption. The liability of causing extrapyramidal side effects was investigated in models of catalepsy and by high-performance liquid chromatography (HPLC) detection of dopamine turnover in several brain regions. The application schedule was validated, and the bioavailability of the compound determined, by means of a HPLC-pharmacokinetic study.Results A significant effect in both the reduction of amphetamine-induced locomotor hyperactivity and the restoration of apomorphine-disrupted prepulse inhibition was found at 30 mg/kg. This dose proved not to be high enough to induce catalepsy or to increase dopamine turnover in the dorsal striatum, nucleus accumbens and medial prefrontal cortex. The selective D₄ antagonist FAUC 213, therefore, is not believed to mediate the above-mentioned effects via D₂ receptor antagonism, but a partial involvement of 5-HT₂- and ₁-receptors cannot be ruled out at present.Conclusions We have gathered evidence that FAUC 213 exhibits atypical antipsychotic characteristics.     

Glycine and <Emphasis Type="SmallCaps">d</Emphasis>-serine,but not <Emphasis Type="SmallCaps">d</Emphasis>-cycloserine,attenuate prepulse inhibition deficits induced by NMDA receptor antagonist MK-801

RATIONALE: Several agents that stimulate the glycine site of N-methyl-D: -aspartate (NMDA) receptors have been reported to moderately improve both negative symptoms and cognitive dysfunctions in patients with schizophrenia. However, differences in efficacy have also been reported, and further comparative pharmacological studies are still needed. OBJECTIVES: We aimed to explore the effects of two glycine site agonists of the NMDA receptor, glycine and D: -serine, and a partial agonist, D: -cycloserine, on prepulse inhibition (PPI) deficits induced by a NMDA receptor antagonist, MK-801, in mice. Furthermore, we performed in vivo microdialysis and additional PPI measurements using a selective glycine site antagonist to verify if the beneficial effects observed after the systemic administration of glycine were due to glycine itself via its activity at the glycine site. RESULTS: High doses of glycine (1.6 g/kg) and D: -serine (1.8 and 2.7 g/kg) significantly attenuated MK-801-induced PPI deficits. In contrast, D: -cycloserine did not show any amelioration of MK-801-induced PPI deficits at doses ranging from 7.5 mg/kg to 60 mg/kg. The selective glycine site antagonist, L-701,324 (10 mg/kg), antagonized the effect of glycine on MK-801-induced PPI deficits. Furthermore, in vivo microdialysis demonstrated that intraperitoneal injection of glycine significantly increased glycine and L: -serine levels, but decreased D: -serine levels in the prefrontal cortex. CONCLUSIONS: The findings of the present study suggest that glycine and D: -serine but not D: -cycloserine could attenuate PPI deficits associated with NMDA receptor hypofunction via NMDA glycine sites in the brain.     

A GABA<Subscript>B</Subscript> agonist reverses the behavioral sensitization to morphine in rats

Rationale In laboratory animals, repeated administration of drugs of abuse causes sensitization to their stimulant and rewarding effects. Neuroadaptations underlying sensitization could be related to those that contribute to addictive behaviors. An increased understanding of the molecular mechanisms of sensitization could lead to improved treatments for addiction. Objectives Since baclofen (BCF) co-administration has been reported to block the development and the expression of motor sensitization to morphine (MOR), the present study examined the hypothesis that a chronic treatment with BCF alone might reverse and/or prevent MOR-induced sensitization. Methods Rats were first sensitized to MOR (saline or 10 mg/kg MOR i.p.; days 1–10) and then chronically treated with BCF (saline or 2 mg/kg BCF i.p.; days 11–20). Finally, the motility effect of MOR (10 mg/kg i.p.) was assessed 3 and 30 days after the end of BCF treatment. The same rats were again challenged with MOR on day 70, after a further period of saline or MOR treatment (days 51–60). Results Behavioral sensitization to MOR was observed in control animals but not in rats chronically treated with BCF (days 23 and 50). Thus, BCF completely reversed MOR-induced sensitization, and its effect was long lasting. However, a previous repeated BCF treatment did not prevent the development of sensitization to MOR both in naive and desensitized rats. Conclusions The present results confirm that γ-aminobutyric acid (GABA)_B receptors play an important role in the expression of motor sensitization to MOR and suggest that GABA_B agonists could be useful for reversing the neuroadaptations related to drug addiction.     

Decreased prepulse inhibition and increased sensitivity to muscarinic,but not dopaminergic drugs in M<Subscript>5</Subscript> muscarinic acetylcholine receptor knockout mice

Rationale Schizophrenic patients show decreased measures of sensorimotor gating, such as prepulse inhibition of startle (PPI). In preclinical models, these measures may be used to predict antipsychotic activity. While current antipsychotic drugs act largely at dopamine receptors, the muscarinic acetylcholine receptors offer promising novel pharmacotherapy targets. Of these, the M₅ receptor gene was recently implicated in susceptibility to schizophrenia. Due to the lack of selective ligands, muscarinic receptor knockout mice have been generated to elucidate the roles of the five receptor subtypes (M₁–M₅). Objectives Here, we used M₅ receptor knockout (M₅−/−) mice to investigate the involvement of M₅ receptors in behavioral measures pertinent to schizophrenia. We tested the hypothesis that disruption of M₅ receptors affected PPI or the effects of muscarinic or dopaminergic agents in PPI or psychomotor stimulation. Materials and methods We measured PPI in M₅−/−, heterozygous and wild-type mice without drugs, and with clozapine (0.56–3.2 mg/kg) or haloperidol (0.32–3.2 mg/kg) alone, and as pretreatment to d-amphetamine. In addition, we evaluated locomotor stimulation by the muscarinic antagonist trihexyphenidyl (0.56–56 mg/kg) and by cocaine (3.2–56 mg/kg). Results The M₅−/− mice showed decreased PPI relative to wild-type mice, and clozapine appeared to reduce this difference, while haloperidol increased PPI regardless of genotype. The M₅−/− mice also showed more locomotor stimulation by trihexyphenidyl than wild-type mice, while cocaine had similar effects between genotypes. Conclusions These data suggest that disruption of the M₅ receptor gene affected sensorimotor gating mechanisms, increased sensitivity to clozapine and to the psychostimulant effects of muscarinic antagonists without modifying the effect of dopaminergic drugs.     

NMDA or AMPA/kainate receptor blockade prevents acquisition of conditioned place preference induced by D<Subscript>2/3</Subscript> dopamine receptor stimulation in rats

Rationale Recent experiments from this laboratory demonstrated synergistic effects of AMPA/kainate receptor blockade and D_2/3 dopamine (DA) receptor stimulation on brain stimulation reward and locomotor activity.Objectives Using place conditioning, this study explored further the interaction between DA and glutamate (Glu) using the N-methyl-d-aspartate (NMDA) receptor antagonist MK-801, the AMPA/kainate receptor antagonist NBQX, and the D_2/3 DA receptor agonist 7-OH-DPAT.Methods Effects of these compounds, alone and combined, were measured in male Sprague–Dawley rats using an unbiased two-compartment place conditioning procedure.Results 7-OH-DPAT (0.03–5.0 mg kg^–1, s.c.) administered immediately prior to conditioning was ineffective; when administered 15 min prior to conditioning, only the highest dose (5.0 mg kg^–1, s.c.) induced conditioned place preference (CPP). Acquisition of 7-OH-DPAT-induced CPP was blocked by MK-801 (0.06 or 0.13 mg kg^–1, i.p.) or NBQX (0.5 g) microinjected into the nucleus accumbens (NAS) shell subregion. Intra-NAS shell administration of 7-OH-DPAT (5.0 g) or NBQX (0.5 g), alone or combined, failed to induce place conditioning, and this lack of effect was not due to state dependency. Administration of MK-801 or 7-OH-DPAT (5.0 mg kg^–1) during the conditioning phase acutely increased horizontal activity, but neither compound, alone or combined, induced conditioned locomotor effects.Conclusions Acquisition of place conditioning induced by systemic administration of 7-OH-DPAT is blocked by systemic NMDA receptor antagonism by MK-801 or by the AMPA/kainate receptor antagonist NBQX microinjected into the NAS shell subregion.Anna-Maria Biondo and Robert L.H. Clements contributed equally to this work.     

The effects of haloperidol and clozapine on the disruption of sensorimotor gating induced by the noncompetitive glutamate antagonist MK-801

The amplitude of the acoustic startle response in rats is decreased if the startle stimulus is preceded by a nonstartle-eliciting auditory stimulus. This sensory gating phenomenon, known as prepulse inhibition, is diminished in schizophrenic individuals. In rats, the noncompetitive glutamate antagonist MK-801 disrupts prepulse inhibition. The present study examined whether the disruption by MK-801 is reversible in rats pretreated with the classical antipsychotic haloperidol or the atypical antipsychotic clozapine. Male Sprague-Dawley rats were placed into a startle chamber and presented with auditory stimuli consisting of either 95 or 105 dB tones presented alone or preceded by a 70 dB tone. Rats treated with 0.1 mg/kg MK-801 demonstrated a significant disruption of prepulse inhibition. Haloperidol (0.1 and 0.5 mg/kg) and clozapine (1.0 and 5.0 mg/kg) each consistently failed to antagonize the MK-801-induced blockade of prepulse inhibition. The effects of haloperidol and clozapine on prepulse inhibition were also examined in saline-treated rats. Clozapine and, to some extent, haloperidol produced a dose-related facilitation of prepulse inhibition. Although preliminary, this finding raises the possibility that the enhancement of prepulse inhibition by antipsychotics might provide a useful rodent model for screening potential antipsychotic drugs.     

Effects of the H<Subscript>3</Subscript> receptor inverse agonist thioperamide on cocaine-induced locomotion in mice: role of the histaminergic system and potential pharmacokinetic interactions

RATIONALE: Previous studies have shown that intraperitoneal injections of thioperamide, an imidazole-based H(3) receptor inverse agonist that enhances histamine release in the brain, potentiate cocaine-induced hyperlocomotion. The present study examined the involvement of the histaminergic system in these effects of thioperamide in mice. MATERIALS AND METHODS: We investigated whether immepip, a selective H(3) agonist, could reverse the potentiating effects of thioperamide. Moreover, the non-imidazole H(3) inverse agonist A-331440 was tested on the locomotor effects of cocaine. Using high-performance liquid chromatography with ultraviolet detection, cocaine plasma concentrations were measured to study potential drug-drug interactions between thioperamide and cocaine. Finally, thioperamide was tested on the locomotor effects of cocaine in histamine-deficient knockout mice in order to determine the contribution of histamine to the modulating effects of thioperamide. RESULTS: Thioperamide potentiated cocaine-induced hyperlocomotion in normal mice, and to a higher extent, in histamine-deficient knockout mice. A-331440 only slightly affected the locomotor effects of cocaine. Immepip did not alter cocaine-induced hyperactivity but significantly reduced the potentiating actions of thioperamide on cocaine's effects. Finally, plasma cocaine concentrations were more elevated in mice treated with thioperamide than in mice that received cocaine alone. CONCLUSIONS: The present results indicate that histamine released by thioperamide through the blockade of H(3) autoreceptors is not involved in the ability of this compound to potentiate cocaine induced-hyperactivity. Our data suggest that thioperamide, at least at 10 mg/kg, increases cocaine-induced locomotion through the combination of pharmacokinetic effects and the blockade of H(3) receptors located on non-histaminergic neurons.     

Disruption of prepulse inhibition of the startle reflex by the preferential D<Subscript>3</Subscript> agonist ropinirole in healthy males

Rationale Emerging evidence from agonist–antagonist studies suggests a role for the dopamine D₃ receptor subtype in the regulation of PPI in animals, but such evidence is lacking for human subjects. Objectives This study examines the effect of the preferential D₃ agonist ropinirole on PPI in humans. Methods PPI was tested in 12 healthy men in three sessions associated with ropinirole 0.25 mg, ropinirole 0.5 mg, or placebo according to a balanced, crossover, double-blind design. Two prepulses (75- and 85-dB white noise bursts) and two lead intervals (50 and 80 ms) were employed. Results Ropinirole 0.5 mg significantly reduced prepulse inhibition (PPI) with both prepulses at the 80-ms lead intervals. There was no effect of treatment on startle amplitude and habituation. Conclusions These results suggest a role for the dopamine D₃ receptor in the mediation of human PPI, although a contribution from ropinirole’s agonistic activity at the D₂ receptor cannot be entirely excluded. Firm conclusions on the role of the D₃ receptor in the modulation of human PPI can only be drawn with the use of genetic approaches or more selective ligands for this receptor.     

Facilitation of brain stimulation reward by MK-801 (dizocilpine) may be independent of D<Subscript>2</Subscript>-like dopamine receptor stimulation in rats

Rationale Dopamine (DA) and glutamate (Glu) interactions in the mesocorticolimbic pathway may regulate motivation and reward and contribute to schizophrenia and drug abuse. We have recently demonstrated synergistic effects of α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA)/kainate receptor blockade and D_2/3 DA receptor stimulation in brain stimulation reward (BSR). Objectives This study was conducted to explore interactions between DA and Glu systems in BSR using the NMDA receptor antagonist MK-801 and the DA receptor agonists 7-OH-DPAT and apomorphine. Methods Systemic effects of these compounds were measured in male Sprague–Dawley rats using rate–frequency threshold analysis of ventral tegmental area (VTA) BSR (n=27). Effects of bilateral applications of MK-801 and 7-OH-DPAT into the nucleus accumbens (NAS) shell subregion were also investigated (n=10). Results MK-801 (0.03 or 0.13 mg kg⁻¹ i.p. or 0.66 μg intra-NAS) reduced reward thresholds while 7-OH-DPAT (0.03 mg kg⁻¹ s.c. or 5.0 μg intra-NAS) or apomorphine (0.05 mg kg⁻¹, s.c.) increased this measure. MK-801 combined with apomorphine or with 7-OH-DPAT, systemically or in the NAS shell, induced additive effects. Conclusions Lack of interaction between DA agonists and MK-801 in this study contrasts with our previous work showing synergistic reward-decreased effects of AMPA/kainate receptor blockade and D_2/3 DA receptor stimulation in the NAS shell, and indicates possible independence of DA and N-methyl-d-aspartate (NMDA) receptor effects in VTA electrical self-stimulation.