Exploration of the molecular mechanisms of cognitive dysfunction in schizophrenia using the sub-chronic PCP rodent model

Glasper, James Edward

January 2015

Cognitive dysfunction is a core symptom of schizophrenia, which is poorly treated by current antipsychotic medication. Deficits in the GABAergic system, as demonstrated by convergent genetic and [125I]-iomazenil imaging evidence from patients, are thought to underlie these cognitive deficits. The sub-chronic PCP rodent model was used as it shows cognitive and behavioural parallels to schizophrenia and therefore provides a translational model for some aspects of the disease. However the neurobiological mechanisms responsible for the behavioural alterations in this model have not been fully elucidated. The main aim of the studies presented in this thesis was to investigate the construct validity of the sub-chronic PCP model in relation to the GABAergic and sigma-1 (σ1) receptor systems. Transcriptional changes in gene markers were studied using qRT-PCR and proteomic alterations were investigated using radioligand binding, autoradiography and Western blotting. Finally, the cognitive enhancing potential of σ1 receptor modulators was tested using the novel object recognition (NOR) task. Data presented in chapter 3 shows that sub-chronic PCP treatment in rats produces an increase in GABAA receptor α5-subunit mRNA and a decrease in α3 and δ subunit mRNA levels. No differences were observed in the mRNA levels of the other studied GABAA receptor subunits (α1, α2, α4 or γ2). No alterations in benzodiazepine site- or α5-subunit-containing GABAA receptors were seen following a 7-day washout period, although increased frontal cortical levels of α5-subunit protein were observed prior to the washout period. This suggests that sub-chronic PCP treatment affects extrasynaptic cortical GABAA receptor expression, as shown by the alterations in α5- and δ-subunits, which may contribute to the cognitive deficits observed in this model. Studies in chapter 4 showed that sub-chronic PCP administration causes frontal cortical reductions in parvalbumin, GAD67, GABA transporter-1 and calretinin mRNA levels. No alterations were observed for somatostatin, GAD65, or GABA transporter-3 mRNA, although changes in the mRNA levels for the astrocytic marker glial fibrillary acidic protein were observed in the cerebellum, frontal cortex and hippocampus of sub-chronic PCP-treated animals. No differences in the frontal cortical protein levels of GAD67, GAT-1 and calretinin were observed, suggesting that any proteomic differences in these markers which are present in the sub-chronic PCP model, they are limited in a layer- or cell-type-specific manner. The NOR task is a translational cognitive test that measures recognition memory, which is known to be impaired in schizophrenia. Data in chapter 5 of this thesis showed that sub-chronic PCP-induced and delay-induced recognition memory deficits were ameliorated by acute administration of the σ1receptor agonist (PRE-084) at 1 and 3mg/kg and by the σ1receptor antagonist (NE-100) at 1mg/kg. NE-100 at 3mg/kg proved effective at ameliorating delay-, but not PCP-induced memory deficits. No procognitive effect was observed at lower concentrations of either compound or by co-administration of both compounds. These observations suggest that the improvement of recognition memory deficits is mediated, in part, by σ1 receptors in female rats. The overall results of these studies suggest that sub-chronic PCP administration causes frontal cortical transcriptional alterations in GABAergic neuronal markers which correlate to clinical findings in schizophrenia patients, although these alterations were not observed at the proteomic level following the washout period. These findings also suggest that the σ1 receptor is a potential therapeutic target for recognition memory deficits in schizophrenia, as well as other disorders.

616.89

Exploration of cognitive and neurochemical deficits in an animal model of schizophrenia. Investigation into sub-chronic PCP-induced cognitive deficits using behavioural, neurochemical and electrophysiological techniques; and use of receptor-selective agents to study the pharmacology of antipsychotics in female rats.

McLean, Samantha

January 2010

Cognitive dysfunction is a core characteristic of schizophrenia, which can often persist when other symptoms, particularly positive symptoms, may be improved with drug treatment. The non-competitive NMDA receptor antagonist, phencyclidine (PCP), is a psychomotor stimulant drug that has been shown to induce symptoms characteristic of schizophrenia in humans and animals. The aim of these studies was to use the sub-chronic PCP model in rats to investigate cognitive dysfunction in behavioural tests which have been highlighted as relevance by the MATRICS initiative (MATRICS.ucla.edu). The main tests used were attentional set-shifting, operant reversal learning, and novel object recognition tasks. The pharmacology of antipsychotics was studied in the reversal learning task using receptor selective compounds. Following this, experiments were carried out using in vitro electrophysiology and in vivo microdialysis in an attempt to investigate the mechanisms underpinning the PCP-induced cognitive deficits. The attentional set-shifting task is a test of executive function, the extra-dimensional shift (EDS) phase relates to the ability to shift attention to a different stimulus dimension; this is impaired in patients with schizophrenia. The studies presented in chapter 2 showed that sub-chronic PCP administration impaired attentional set-shifting performance selectively in the EDS phase, a deficit which was significantly attenuated by sub-chronic administration of clozapine and risperidone, but not haloperidol. The effect of PCP was also shown to be more robust in female rats compared to males. A deficit in set-shifting ability was also observed in isolation reared rats. However, the deficits produced by PCP were more robust than the deficit produced by isolation rearing. The reversal learning task is another test of executive function. Chapter 3 reported that sub-chronic PCP administration impairs reversal learning ability in an operant task, as demonstrated by reduced percent correct responding in the reversal phase of the reversal learning task. It was found that a D1 agonist (SKF-38398), a 5-HT1A partial agonist (buspirone), a 5-HT2C antagonist (SB-243213A) and an agonist and positive allosteric modulator of the alpha 7 nACh receptor (PNU-282987 and PheTQS respectively) are able to reverse the sub-chronic PCP-induced deficit in reversal learning. Although many antipsychotics have affinity for muscarinic M1 and histamine H1 receptors, selective agents at these receptors were not able to improve the PCP-induced deficit. In chapter 4, the atypical antipsychotics, clozapine and risperidone, when given alone to naïve rats had no effect on reversal learning. Haloperidol when given to naïve rats impaired performance at the highest dose. Sub-chronic PCP was again found to impair reversal learning performance. Investigative experiments revealed that the 2 min time-out could be important as a cue. Following a double reversal, olanzapine-treated rats lost the ability to switch between the rules, whereas clozapine and risperidone-treated rats could perform the double reversal. Experiments with the extended (15 min) reversal phase could allow the investigation of the time-course effects of antipsychotics or selective compounds. The studies presented in chapter 5 found a reduction in gamma oscillations in the CA3 region of the hippocampus, following sub-chronic PCP treatment (2-5 weeks post treatment) that was paralleled by a deficit in parvalbumin immunoreactive (IR) cell density, at a similar time point (2 weeks post treatment). In contrast, a time-dependent increase in gamma oscillations was observed (6-8 weeks post treatment), at which point parvalbumin IR cell density was unchanged (8 weeks post treatment). Gamma oscillations were unchanged in the prefrontal cortex (PFC) following the PCP treatment regime. Locomotor activity tests were also carried out to ensure that the sub-chronic PCP treatment was successful. In-vivo microdialysis revealed that vehicle-treated rats show an increase in dopamine in the PFC which is selective for the retention trial of the novel object recognition task. PCP-treated rats were unable to distinguish between the novel and familiar objects and the increase in dopamine observed in vehicle rats was absent. As a control experiment it was also shown that sub-chronic PCP did not induce anxiety-like symptoms in the elevated plus maze and open field tests. These studies suggest that sub-chronic PCP induces cognitive deficits in behavioural tasks, and these deficits may be due to GABAergic mediated processes in the hippocampus and dopaminergic dysfunction in the PFC. These behavioural and neurochemical results are concurrent to findings observed in schizophrenia.

Rat

Phencyclidine

Antipsychotics

Cognition

Dopamine

5-HT

GABA

Cognitive dysfunction

Dopamine dysregulation in the prefrontal cortex relates to cognitive deficits in the sub-chronic PCP-model for schizophrenia: a preliminary investigation

McLean, Samantha, Harte, Michael K., Neill, Joanna C., Young, A.M.J.

26 April 2017

Yes / Rationale: Dopamine dysregulation in the prefrontal cortex (PFC) plays an important role in cognitive dysfunction in schizophrenia. Sub-chronic phencyclidine (scPCP) treatment produces cognitive impairments in rodents and is a thoroughly validated animal model for cognitive deficits in schizophrenia. The aim of our study was to investigate the role of PFC dopamine in scPCP-induced deficits in a cognitive task of relevance to the disorder, novel object recognition (NOR). Methods: Twelve adult female Lister Hooded rats received scPCP (2 mg/kg) or vehicle via the intraperitoneal route twice daily for seven days, followed by seven days washout. In vivo microdialysis was carried out prior to, during and following the NOR task. Results: Vehicle rats successfully discriminated between novel and familiar objects and this was accompanied by a significant increase in dopamine in the PFC during the retention trial (P<0.01). scPCP produced a significant deficit in NOR (P<0.05 vs. control) and no PFC dopamine increase was observed. Conclusions: These data demonstrate an increase in dopamine during the retention trial in vehicle rats that was not observed in scPCP-treated rats accompanied by cognitive disruption in the scPCP group. This novel finding suggests a mechanism by which cognitive deficits are produced in this animal model and support its use for investigating disorders in which PFC dopamine is central to the pathophysiology.

Dopamine

Prefrontal cortex (PFC)

Cognition

Phencyclidine

Object recognition

D1-like receptor activation improves PCP-induced cognitive deficits in animal models: Implications for mechanisms of improved cognitive function in schizophrenia

McLean, Samantha, Idris, Nagi F., Woolley, M.L., Neill, Joanna C.

27 January 2009

Yes / Phencyclidine (PCP) produces cognitive deficits of relevance to schizophrenia in animal models. The aim was to investigate the efficacy of the D1-like receptor agonist, SKF-38393, to improve PCPinduced deficits in the novel object recognition (NOR) and operant reversal learning (RL) tasks. Rats received either sub-chronic PCP (2 mg/kg) or vehicle for 7 days, followed by a 7-day washout. Rats were either tested in NOR or the RL tasks. In NOR, vehicle rats successfully discriminated between novel and familiar objects, an effect abolished in PCP-treated rats. SKF-38393 (6 mg/kg) significantly ameliorated the PCP-induced deficit (Pb0.01) an effect significantly antagonised by SCH-23390 (0.05 mg/kg), a D1-like receptor antagonist (Pb0.01). In the RL task sub-chronic PCP significantly reduced performance in the reversal phase (Pb0.001); SKF-38393 (6.0 mg/kg) improved this PCPinduced deficit, an effect antagonised by SCH-23390 (Pb0.05). These results suggest a role for D1-like receptors in improvement of cognitive function in paradigms of relevance to schizophrenia.

D1 receptors

Schizophrenia

Recognition memory

Reversal learning

Female rat

Phencyclidine

A preliminary investigation into the effects of antipsychotics on sub-chronic phencyclidine-induced deficits in attentional set-shifting in female rats

McLean, Samantha, Beck, J.P., Woolley, M.L., Neill, Joanna C.

15 January 2008

Yes / Rationale The NMDA receptor antagonist, phencyclidine (PCP), has been shown to induce symptoms characteristic of schizophrenia. A loss in executive function and the ability to shift attention between stimulus dimensions is impaired in schizophrenia; this can be assessed in rodents by the perceptual attentional set-shifting task. Objective The aim of this study was to investigate whether the deficits induced by sub-chronic PCP in attentional set-shifting could be reversed by sub-chronic administration of clozapine, risperidone or haloperidol. Methods Adult female hooded-Lister rats received sub-chronic PCP (2 mg/kg) or vehicle (1 ml/kg) i.p. twice daily for 7 days, followed by a 7-day washout period. PCP-treated rats then received clozapine, risperidone, haloperidol or vehicle once daily for 7 days and were then tested in the perceptual set-shifting task. Results PCP significantly (p < 0.01) increased the number of trials to reach criterion in the EDS phase when compared to vehicle and this deficit was significantly (p < 0.01) attenuated by sub-chronic clozapine (2.5 mg/kg) and risperidone (0.2 mg/kg), but not by sub-chronic haloperidol treatment (0.05 mg/kg). Conclusions These data show that sub-chronic PCP produced a robust deficit within the EDS phase in the attentional set-shifting task, in female rats. Atypical antipsychotics, clozapine and risperidone, but not the classical agent, haloperidol, significantly improved the PCP-induced cognitive deficit.

Schizophrenia

Set-shifting

Phencyclidine

Rat

Atypical antipsychotics

Haloperidol

Effets de la phencyclidine sur la mémoire de l'ordre temporel chez le rat : syndrome d'hypofrontalité et schzophrénie

Marquis, Jean-Philippe

25 March 2021

L'un des défis des modèles animaux de la schizophrénie réside dans la reproduction du syndrome « d'hypofrontalité ». Chez l'animal, l'administration répétée de phencyclidine (PCP) est jugée efficace pour modéliser la symptomatologie positive et négative de la schizophrénie, incluant les dysfonctions du cortex préfrontal (cPF). Toutefois, la capacité de ce modèle à altérer la cognition associée au cPF repose sur seulement deux preuves empiriques, non reproduites, chez le rat. L ‘article intégré dans ce mémoire présente deux expériences où la performance de rats traités au PCP est évaluée dans une tâche de mémoire de l'ordre temporel dépendante de l'intégrité du cPF. Les résultats démontrent que l'injection répétée de PCP n ‘altère pas la discrimination de récence. Cette incapacité à induire une dysfonction du cPF chez le rat est compatible avec d ‘autres résultats négatifs obtenus dans notre laboratoire. La supériorité du modèle PCP dans la reproduction de l'hypofrontalité est remise en cause.

Rats -- Métabolisme.

Phencyclidine -- Effets physiologiques.

Mémoire immédiate.

Schizophrénie.

Cortex préfrontal.

Dissociable antidepressant-like and abuse-related effects of the noncompetitive NMDA receptor antagonists ketamine and MK-801 in rats.

Hillhouse, Todd

25 April 2014

The noncompetitive NMDA receptor antagonist ketamine produces rapid and sustained antidepressant effects in patients suffering from major depressive disorder. However, abuse liability is a concern. To further evaluate the relationship between antidepressant-like and abuse-related effects of NMDA receptor antagonists, this study evaluated the effects of ketamine, MK-801, and phencyclidine in male Sprague-Dawley rats responding under two procedures that have been used to assess antidepressant-like effects [differential-reinforcement-of-low-rate (DRL) 72 s schedule of food reinforcement] and abuse-related drug effects [intracranial self-stimulation (ICSS)]. Under DRL 72 s, ketamine produced an antidepressant-like effect by increasing reinforcers, decreasing responses, and producing a rightward shift in the peak location of the interresponse time (IRT) distributions. Phencyclidine produced a modest antidepressant-like effect by increasing reinforcers and decreasing responses, but did not shift the IRT distributions. In contrast, MK-801 produced a psychostimulant-like effect by decreasing reinforcers, increasing responses, and producing a leftward shift in the peak location of the IRT distributions. The antidepressant-like effects of ketamine on the DRL 72 s procedure do not appear to be mediated by inhibiting the reuptake of serotonin via serotonin transporters or antagonism of 5-HT2 receptors. Additionally, the dissociable effects of ketamine and MK-801 in the DRL 72 s procedure may be mediated by 5-HT2 receptors. Following acute administration, ketamine produced only dose- and time-dependent depression of ICSS and failed to produce an abuse-related facilitation of ICSS at any dose or pretreatment time. Repeated dosing with ketamine produced dose-dependent tolerance to the rate-decreasing effects of ketamine but failed to unmask expression of ICSS facilitation. Termination of ketamine treatment failed to produce withdrawal-associated decreases in ICSS. In contrast, MK-801 and phencyclidine effects produced dose- and time-dependent facilitation of ICSS by MK-801. Taken together, our findings provide further evidence that expression of these antidepressant-like and abuse-related effects of ketamine, phencyclidine, and MK-801 may be related to NMDA receptor affinity.

Ketamine

Phencyclidine

MK-801

DRL

ICSS

Depression

Abuse liability

Psychology

Social and Behavioral Sciences

Exploration of cognitive and neurochemical deficits in an animal model of schizophrenia : investigation into sub-chronic PCP-induced cognitive deficits using behavioural, neurochemical and electrophysiological techniques, and use of receptor-selective agents to study the pharmacology of antipsychotics in female rats

amantha Louise, Samantha Louise

January 2010

Cognitive dysfunction is a core characteristic of schizophrenia, which can often persist when other symptoms, particularly positive symptoms, may be improved with drug treatment. The non-competitive NMDA receptor antagonist, phencyclidine (PCP), is a psychomotor stimulant drug that has been shown to induce symptoms characteristic of schizophrenia in humans and animals. The aim of these studies was to use the sub-chronic PCP model in rats to investigate cognitive dysfunction in behavioural tests which have been highlighted as relevance by the MATRICS initiative (MATRICS.ucla.edu). The main tests used were attentional set-shifting, operant reversal learning, and novel object recognition tasks. The pharmacology of antipsychotics was studied in the reversal learning task using receptor selective compounds. Following this, experiments were carried out using in vitro electrophysiology and in vivo microdialysis in an attempt to investigate the mechanisms underpinning the PCP-induced cognitive deficits. The attentional set-shifting task is a test of executive function, the extra-dimensional shift (EDS) phase relates to the ability to shift attention to a different stimulus dimension; this is impaired in patients with schizophrenia. The studies presented in chapter 2 showed that sub-chronic PCP administration impaired attentional set-shifting performance selectively in the EDS phase, a deficit which was significantly attenuated by sub-chronic administration of clozapine and risperidone, but not haloperidol. The effect of PCP was also shown to be more robust in female rats compared to males. A deficit in set-shifting ability was also observed in isolation reared rats. However, the deficits produced by PCP were more robust than the deficit produced by isolation rearing. The reversal learning task is another test of executive function. Chapter 3 reported that sub-chronic PCP administration impairs reversal learning ability in an operant task, as demonstrated by reduced percent correct responding in the reversal phase of the reversal learning task. It was found that a D1 agonist (SKF-38398), a 5-HT1A partial agonist (buspirone), a 5-HT2C antagonist (SB-243213A) and an agonist and positive allosteric modulator of the alpha 7 nACh receptor (PNU-282987 and PheTQS respectively) are able to reverse the sub-chronic PCP-induced deficit in reversal learning. Although many antipsychotics have affinity for muscarinic M1 and histamine H1 receptors, selective agents at these receptors were not able to improve the PCP-induced deficit. In chapter 4, the atypical antipsychotics, clozapine and risperidone, when given alone to naïve rats had no effect on reversal learning. Haloperidol when given to naïve rats impaired performance at the highest dose. Sub-chronic PCP was again found to impair reversal learning performance. Investigative experiments revealed that the 2 min time-out could be important as a cue. Following a double reversal, olanzapine-treated rats lost the ability to switch between the rules, whereas clozapine and risperidone-treated rats could perform the double reversal. Experiments with the extended (15 min) reversal phase could allow the investigation of the time-course effects of antipsychotics or selective compounds. The studies presented in chapter 5 found a reduction in gamma oscillations in the CA3 region of the hippocampus, following sub-chronic PCP treatment (2-5 weeks post treatment) that was paralleled by a deficit in parvalbumin immunoreactive (IR) cell density, at a similar time point (2 weeks post treatment). In contrast, a time-dependent increase in gamma oscillations was observed (6-8 weeks post treatment), at which point parvalbumin IR cell density was unchanged (8 weeks post treatment). Gamma oscillations were unchanged in the prefrontal cortex (PFC) following the PCP treatment regime. Locomotor activity tests were also carried out to ensure that the sub-chronic PCP treatment was successful. In-vivo microdialysis revealed that vehicle-treated rats show an increase in dopamine in the PFC which is selective for the retention trial of the novel object recognition task. PCP-treated rats were unable to distinguish between the novel and familiar objects and the increase in dopamine observed in vehicle rats was absent. As a control experiment it was also shown that sub-chronic PCP did not induce anxiety-like symptoms in the elevated plus maze and open field tests. These studies suggest that sub-chronic PCP induces cognitive deficits in behavioural tasks, and these deficits may be due to GABAergic mediated processes in the hippocampus and dopaminergic dysfunction in the PFC. These behavioural and neurochemical results are concurrent to findings observed in schizophrenia.

615.1

Validation of an animal model of cognitive dysfunction associated with schizophrenia : development and validation of the novel object recognition task using behavioural manipulations and psychotomimetic dosing regimens to induce cognitive deficits of relevance to schizophrenia in hooded-Lister rats

Grayson, Ben

January 2012

Phencyclidine (PCP) is a non-competitive NMDA receptor antagonist that has been shown to induce schizophrenia-like psychotic symptoms that are clinically indistinguishable from schizophrenia in patients. When administered to rodents, PCP produces an array of behaviours that are characteristic of schizophrenia. Schizophrenia is associated with continual and treatment resistant cognitive deficits which are now recognised as a core feature of the disease. The aim of the studies reported in chapter 3 were to establish a set of objects with equal preference in the NOR (novel object recognition) test. Furthermore, the inter-trial-interval (ITI) of the NOR test was investigated in an attempt to elucidate the effects of time and location of the rats during the ITI on the cognitive impairments following sub-chronic PCP treatment. The experiments in chapter 4 were designed to compare the performance of male and female rats in the NOR test following treatment with acute d-amphetamine (d-amph), PCP and sub-chronic PCP treatment. In chapter 5, validation of the cognitive deficits induced by sub-chronic PCP treatment was assessed using carefully selected pharmacological agents. The aim of the studies in chapter 6 was to determine the effects of isolation rearing on cognitive performance in the NOR test following increasing ITIs. Additionally, the sensitivity of isolation reared rats compared to social controls following acute administration of PCP and d-amph was assessed using the NOR test. Studies in chapter 8 utilised the 16-holeboard maze to determine the effects of acute treatment with d-amphetamine, PCP and scopolamine on working memory in the rat. NOR is a visual learning and memory test that measures recognition memory which is impaired in patients with schizophrenia. Studies presented in this thesis demonstrate the importance of careful pilot studies when selecting objects for use in the NOR test. Initial studies in sub-chronic PCP (2 mg/kg for 7 days followed by 7 days drug free) treated female hooded-Lister rats revealed a preference of the rats for the wooden cone object; subsequently this object was eliminated from further NOR experiments. Sub-chronic PCP treated rats were found to be highly susceptible to the disruptive influence of distraction during the short 1 min inter-trial-interval (ITI) in the NOR test. These results are consistent with clinical findings of the effects of distraction on cognition in schizophrenia patients. Following the initial validation experiments, a 1 min ITI in the home cage was selected for all subsequent NOR studies. Further experiments provided evidence to confirm that information presented in the acquisition trial is encoded but not retained in the retention trial of the NOR test by IV PCP-treated rats. Male rats were less sensitive to the recognition memory deficits induced by acute treatment with PCP and d-amphetamine compared with females. Following sub-chronic PCP treatment, both males and females showed object recognition deficits, however, the impairments were more robust in female rats. Female rats were therefore selected for all subsequent experiments. Pharmacological validation was carried out using carefully selected agents which were assessed for their ability to restore the sub-chronic PCP induced cognitive deficit in the object recognition test. It was found that the classical antipsychotic agents haloperidol and fluphenazine, the benzodiazepine anxiolytic chlordiazepoxide and the SSRI antidepressant fluoxetine were ineffective. Further studies showed that the atypical antipsychotic agents, clozapine and risperidone, the analeptic agent modafinil, the nAChR full agonist nicotine, and full agonist and positive allosteric modulator of the α7 nAChR (PNU-282987 and PNU120596 respectively) reversed the recognition memory deficit induced by sub-chronic PCP treatment in the NOR test. Isolation rearing of rats at weaning is an environmental stressor that has relevance for modelling the symptomatology and pathology of schizophrenia. Isolates had a significantly increased locomotor activity (LMA) response to a novel environment and enhanced sensitivity to time delay-induced recognition memory deficits, compared with their socially reared counterparts. Isolates were less sensitive to an acute PCP-induced recognition memory deficit but more sensitive to an acute d-amphetamine induced recognition memory deficit in the NOR test compared to social controls. Preliminary results from the 16-holeboard maze experiments reveal that acute administration of the mAChR antagonist scopolamine, d-amphetamine, PCP and sub-chronic PCP treatment reduced working memory scores compared to vehicle treated controls. Taken together, these findings suggest that sub-chronic treatment with PCP induces cognitive deficits in behavioural tests of relevance to cognition associated with schizophrenia. This may allow the detection of novel pharmacotherapies to alleviate these cognitive deficits and exploration of the nature of cognitive disturbances in these patients.

615.1

Effect of Acute and Chronic Olanzapine Treatment on Phencyclidine-Induced Behavioral Sensitization in Rats With Neonatal Dopamine Loss

Moy, Sheryl S., Fernandes, Alda, Qian, Ying, Rotella, Dana J., Kostrewa, Richard M., Breese, George R.

01 May 2004

In agreement with previous work, adult rats given selective lesions to dopamine (DA)-containing neurons as neonates exhibited a greater behavioral sensitization to repeated phencyclidine (PCP) treatment in comparison to sham-lesioned controls. Acute administration of olanzapine (1-5 mg/kg ip) or clozapine (15 mg/kg ip) decreased sensitized PCP-induced activity in both lesioned and control animals. Acute haloperidol (0.5 mg/kg ip) had no impact on PCP responsiveness in lesioned animals, but significantly antagonized PCP effects in sham-lesioned controls. Ketanserin, a selective 5-HT 2A/5-HT2C-receptor antagonist, significantly reduced PCP activation in both lesioned and control rats, suggesting that the efficacy of atypical antipsychotics against PCP-induced sensitized responses may be mediated by one of the 5-HT2-receptor subtypes. A 6-week chronic regimen of orally administered olanzapine, clozapine, or haloperidol failed to block the sensitization induced by repeated PCP exposure. However, a 10-month oral olanzapine treatment significantly blunted the behavioral sensitization to repeated PCP exposure in lesioned animals, even after withdrawal from chronic olanzapine for more than 3 weeks. A 10-month oral haloperidol treatment had no effect on the sensitization induced by repeated PCP dosing. The persistent effect of chronic olanzapine administration on PCP sensitization may be relevant to the chronic therapeutic efficacy of atypical antipsychotics treating schizophrenia - a clinical syndrome linked to enhanced sensitivity to N-methyl-D-aspartate (NMDA)-receptor antagonists.

acute haloperidol

acute olanzapine

behavioral sensitization

chronic haloperidol

chronic olanzapine

ketanserin

neonate-6-hydroxydopamine lesion

phencyclidine