Évaluation de l'activité sérotoninergique du cortex préfrontal médian dans un modèle animal de psychose

Labonté, Benoit

January 2007

Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal

Dizocilpine (MK-801)

Cortex préfrontal médian (CPFm)

Sérotonine (5-HT)

Glutamate (GLU)

Schizoprhénie

The impact of developmental vitamin D deficiency on brain neurochemistry and behaviour in Sprague-Dawley rats

James Kesby

Unknown Date

Epidemiological studies indicate that maternal vitamin D deficiency may be a candidate developmental risk factor for schizophrenia. For example, people born in winter/spring, urban environments and dark-skinned individuals whose parents migrated to cooler climates are all at increased risk of developing schizophrenia later in life. The biological plausibility that a low prenatal level of vitamin D has an adverse impact on the developing brain has been studied using a developmental vitamin D (DVD) deficient rat model. These animals display molecular and anatomical abnormalities in brain development and alterations in behaviour as adults. Compared with control rats, neonatal DVD-deficient rat brains are different in shape; displaying a thinner cortex and larger lateral ventricles. Moreover, the brains appear to be less differentiated. At adulthood, DVD-deficient rats show an enhanced sensitivity to novelty-, antipsychotic- and psychomimetic- induced locomotion. These observations have lead to the hypothesis that dopamine and/or glutamate neurotransmission may be altered in DVD-deficient rats. Thus, the main aim of this thesis was to further characterise the dopamine and glutamate neurotransmitter systems in DVD-deficient rats. DVD-deficiency resulted in sex and age specific changes in dopamine signalling. At birth, DVD-deficient rats showed altered dopamine metabolism in the forebrain providing the first report of altered dopamine function after DVD-deficiency. Female DVD-deficient rats displayed a post-adolescent (at 3 months of age) enhanced response to amphetamine-induced locomotion. Accompanying this behavioural sensitivity were decreased levels of dopamine 1 and 2 receptor density in the nucleus accumbens. The altered behaviour in female DVD-deficient rats was not associated with increased dopamine release in the prefrontal cortex, caudate putamen or nucleus accumbens. Although a similar increase in the behavioural sensitivity to amphetamine was not observed in male DVD-deficient adult rats, increases in the density of the dopamine transporter were observed in the caudate putamen and nucleus accumbens. However, when examined at a mature adult age (6 months) neither the enhanced response to amphetamine, receptor or transporter changes persisted. These results suggest that after puberty a transient change in dopamine receptor signalling manifests as an altered response to amphetamine under certain environmental and experimental conditions. Glutamate signalling was probed with the N-methyl-D-aspartate receptor antagonist MK-801. Adult male DVD-deficient rats showed an enhanced locomotor response to MK-801 and this persisted when examined at a mature adult age. Female DVD-deficient rats showed an enhanced response but this was only observed at the mature adult age examined. No behavioral differences were observed prior to adolescence. This behavioural sensitivity did not appear to be due to altered dopamine release after MK-801 in the prefrontal cortex and caudate putamen. Taken together, male DVD-deficient rats develop a locomotor sensitivity to MK-801 at an earlier age than DVD-deficient females. This behavioural alteration is not associated with altered dopamine function. The combined results from the studies in this thesis present a complex phenotype that suggests altered dopamine and glutamate interactions in DVD-deficient rats that are dynamic; demonstrating both age and sex specific traits. I speculate that the development of these behavioural and neurochemical alterations in DVD-deficient rats follows a similar temporal profile to the symptomology observed in schizophrenia patients. Both behavioural sensitivities to amphetamine and MK-801 are observed in schizophrenia in addition to a delayed onset of symptoms in females. This provides further support for a role of vitamin D in the developing brain and suggests that a transient deficiency can result in long-term behavioural and neurochemical alterations. Together this suggests that the DVD-deficient rat model may be an informative model for exploring the developmental vitamin D deficiency hypothesis of schizophrenia.

Vitamin D

brain

Developement

schizophrenia

Rat

Animal Model

Dopamine

Glutamate

amphetamine

Mk-801

UNDERSTANDING THE ROLE OF OXYTOCIN IN SENSORIMOTOR GATING DEFICITS

Dike, Obianuju E.

01 December 2009

No description available.

Biomedical Research

Oxytocin

knockout mice

schizophrenia

glutamate

startle

PPI

MK-801

amphetamine

Die neuroprotektive Wirkung der NMDA-Rezeptorantagonisten CGS, Memantin und Ifenprodil, sowie Roscovitin und NMDA auf die hypoxiebedingte Zellschädigung an embryonalen kortikalen Zellen von Ratten

Holtkamp, Johanna

05 February 2015

Die vorliegende Arbeit beschäftigt sich mit dem Einfluss der NMDA-Rezeptorantagonisten, Memantin, MK-801, CGS und Ifenprodil auf die hypoxieinduzierte Zellschädigung an kortikalen Zellen der Ratte. Außerdem wurde der Einfluss von subtoxischen Konzentrationen von NMDA sowie von Roscovitin, einem Hemmer Cyclin-abhängiger Kinasen, auf die hypoxiebedingte Zellschädigung untersucht. Ziel dieser Arbeit war es, die neuroprotektive Wirkung dieser Substanzen zu erfassen. Zur Untersuchung der hypoxischen Schädigung wurden zwei 48-Well-Zellkulturplatten mit 15 Tage alten kortikalen Zellen der Ratte verwendet. Eine Kulturplatte wurde für vier Stunden mit HEPES(N-2-Hydroxyethylpiperazine-N’-2-Ethansulfonsäure)-Puffer (ohne Glucose) unter hypoxischen Bedingungen inkubiert. Die zweite Platte, mit glukorisiertem HEPES-Puffer, wurde für vier Stunden unter normoxischen Bedingungen inkubiert. Der HEPES-Puffer wurde nach vier Stunden entfernt, die Kulturplatten mit Dulbecco’s Modified Eagle Medium (DMEM) gewaschen und mit diesem Medium für 24 Stunden unter normoxischen Bedingungen inkubiert. Anschließend wurde das Medium ent¬fernt, durch NMDA, Memantin, Roscovitin, CGS und Ifenprodil ersetzt und die Ansätze für weitere 24 Stunden unter normoxischen Bedingungen inkubiert. Zur Beurteilung der Zellschädigung wurden der Aktivitätsanstieg der Laktat-Dehydrogenase (LDH), die Freisetzung freier Sauerstoffradikale und die Steigerung der Caspase-Aktivität bestimmt. Während die Bestimmung der LDH-Aktivität und die Freisetzung der freien Sauer¬stoff¬radikale nekrotische Veränderungen der Zellen charakterisiert, zeigt eine Zunahme der Caspase-Aktivität apoptotische Vorgänge an. LDH ist ein stabiles zytoplasmatisches Enzym, das in fast allen Körperzellen vorkommt. Beim Absterben der Zelle wird das Enzym durch die Schädigung der Plasmamembran aus der Zelle freigesetzt, so dass es zu einem Anstieg der LDH-Aktivität proportional zur Anzahl der toten Zellen kommt. Diese Aktivität wurde spektrophotometrisch mit einem Mikrotiterplatten-Lesegerät bestimmt. Die Ergebnisse des LDH-Tests zeigen, dass nach der 24-stündigen Behandlung der Zellen mit MK-801 die LDH-Aktivität um 11%, bei Roscovitin um 13%, bei Memantin (5 µM) um 56%, bei Memantin (0,5 µM) um 52% und mit NMDA (5 µM) um 44% signifikant vermindert wurde. Bei einer hypoxiebedingten Schädigung kortikaler Zellen kommt es auch zur Bildung freier Sauer¬stoff¬radikale. 2’,7’-Dichlorfluorescein Diacetat (2’,7’-H2DCF-DA) wird von den Zellen auf¬ge¬nommen und intrazellulär mit Sauerstoff- und Stickstoffspezies zum Fluoreszenz¬farb-stoff 2’,7’-Dichlorodihydrofluorescein (DCF) deacetyliert. DCF verbleibt dabei in den Zellen, so dass die Messung der Fluoreszenz der Zellen als Maß für intrazelluläre Oxidationsprozesse verwendet werden kann. Die DCF-Fluoreszenz-Änderung wurde mittels eines Fluorimeters gemessen und die daraus resultierenden Daten mit einer im Fluorimeter integrierten Software bearbeitet. Die Ergebnisse zeigen, dass die Freisetzung der freien Sauerstoffradikale, der hypoxiegeschädigten Zellen, signifikant durch Ifenprodil (10 µM) um 119%, Memantin (50 µM) um 88% und NMDA (5 µM) um 134% reduziert wurde. Die hypoxieinduzierte Zellmembranschädigung führt desweiteren zu einem Anstieg der Caspase-Aktivität. Mit Hilfe des Apo-One Homogeneous Caspase-3/7-Assays (Promega) wurde die Aktivität der Caspasen 3 und 7 fluorimetrisch bestimmt. Um die unterschiedliche Zelldichte in den Kulturschalen zu berücksichtigen, wurde eine Proteinbestimmung nach der Bicinchoninsäure-Methode (Smith et al. 1985) durchgeführt. Einen protektiven Effekt auf die Zellschädigung zeigen Memantin und NMDA in Bezug auf die Beeinflussung dieser Caspase-Aktivität. Der hypoxiebedingte Anstieg der Caspase-3-Aktivität konnte nach 24-stündiger Inkubation mit Memantin (5 µM) um 24%, mit Memantin (0,5 µM) um 28% und mit NMDA (5 µM) um 24% vermindert werden. CGS hat in diesen Versuchen keinen protektiven Einfluss auf die hypoxie¬induzierte Zellschädigung. Diese Arbeit zeigt, dass die Applikation niedriger NMDA-Konzentrationen neuroprotektive Effekte auf die Entwicklung der hypoxischen Schädigung von kortikalen Zellen der Ratte hat. Darüber hinaus wird vermutet, dass NMDA sogar einen trophischen Effekt auf das Über-leben der kortikalen Neurone ausübt. Dieser schützende Mechanismus von NMDA scheint denselben, wenn nicht sogar einen größeren protektiven Effekt wie Memantin zu induzieren. Um die Therapiemöglichkeiten der zerebralen Hypoxie durch neuroprotektive Medikamente zu optimieren, wären jedoch weitergehende Untersuchungen besonders als In-vivo-Modelle wünschenswert.

info:eu-repo/classification/ddc/610

ddc:610

Vliv agonisty metabotropních glutamátových receptorů LY 379268 na změny chování ve zvířecím modelu psychózy / The effect of agonist of the metabotropic glutamate receptors LY 379268 in an animal model of psychosis

Rišňovská, Dominika

January 2020

Introduction: Schizophrenia is a neuropsychiatric illness characterized by impairments in cognition and positive and negative symptoms. As currently used antipsychotics do not treat all symptoms of the disease, further research of the therapeutic potential of various drugs in the treatment of this disease is crucial. Psychosis is a condition or a mental state that usually accompany schizophrenia, as well as other disorders. We used MK-801, a non-competitive antagonist of NMDA receptors to induce an experimental model of psychosis in rats. By binding to the NMDA subtype of glutamate receptors located on inhibitory interneurons, MK-801 has been shown to elicit an overactivation of cortical and hippocampal pyramidal neurons, leading to behaviors such as hyperlocomotion, stereotypy or cognitive impairments. LY 379268, an agonist of group II metabotropic glutamate receptors, binds to both presynaptic and postsynaptic receptors on pyramidal neurons. It has been suggested that it could alleviate the MK-801-induced hyperactivity of the principal neurons. In this study, we sought to demonstrate the effects of LY 379268 in the MK-801 animal model of psychosis and hypothesized that LY 379268 will ameliorate deficits in the reversal learning induced by MK-801. Materials and methods: Long Evans rats received...

Klastrovací analýza elektrofyziologických dat / Cluster analysis of electrophysiological data

Kocanda, Stanislav

January 2010

No description available.

Neurofarmakologie prostorové navigace a testy koordinace a flexibility v animálních modelech / Neuropharmacology of spatial navigation, cognitive coordination and flexibility tests in animal models

Prokopová, Iva

January 2014

Spatial navigation, cognitive coordination and behavioral flexibility belong amongst cognitive functions, which play a role in many neuropsychiatric disorders. Behavioral tasks have proved to be useful paradigms to test these functions in pharmacological or genetic animal models. First aim was to determine a potential interaction between β-adrenergic and α1-adrenergic or D2-dopaminergic systems. Spatial navigation and coordination were impaired in both studies during co-aplication of subthreshold doses of drugs. Used substances belong to group of widely prescribed drugs, thus our results could be implicated in clinical practice. Another study examined an acute effect of MK-801 (animal model of schizophrenia) on behavioral flexibility in Carousel maze and the Morris water maze (MWM). Carousel maze showed higher sensitivity with impairments from 0.08 mg.kg-1 compared to 0.10 mg.kg- 1 in MWM. The final experiment aimed at testing the effect of reduced expression of Nogo-A protein on spatial navigation and behavioral flexibility of rats. A battery of tests in the Carousel maze revealed impairment in cognitive functions, MWM showed unaffected working memory of rats. Our results support the hypothesis linking Nogo-A knock-down rats with neuropsychiatric symptoms and cognitive disorders. Key words:...

Neurofarmakologie prostorové navigace a testy koordinace a flexibility v animálních modelech / Neuropharmacology of spatial navigation, cognitive coordination and flexibility tests in animal models

Prokopová, Iva

January 2014

Spatial navigation, cognitive coordination and behavioral flexibility belong amongst cognitive functions, which play a role in many neuropsychiatric disorders. Behavioral tasks have proved to be useful paradigms to test these functions in pharmacological or genetic animal models. First aim was to determine a potential interaction between β-adrenergic and α1-adrenergic or D2-dopaminergic systems. Spatial navigation and coordination were impaired in both studies during co-aplication of subthreshold doses of drugs. Used substances belong to group of widely prescribed drugs, thus our results could be implicated in clinical practice. Another study examined an acute effect of MK-801 (animal model of schizophrenia) on behavioral flexibility in Carousel maze and the Morris water maze (MWM). Carousel maze showed higher sensitivity with impairments from 0.08 mg.kg-1 compared to 0.10 mg.kg- 1 in MWM. The final experiment aimed at testing the effect of reduced expression of Nogo-A protein on spatial navigation and behavioral flexibility of rats. A battery of tests in the Carousel maze revealed impairment in cognitive functions, MWM showed unaffected working memory of rats. Our results support the hypothesis linking Nogo-A knock-down rats with neuropsychiatric symptoms and cognitive disorders. Key words:...

Validation of the 40 Hz Auditory Steady State Response as a Pharmacodynamic Biomarker of Evoked Neural Synchrony

Raza, Muhammad Ummear

01 August 2022

Schizophrenia is a troubling and severe mental illness that is only incompletely treated by currently available drugs. New drug development is hindered by a scarcity of functionally relevant pharmacodynamic biomarkers that are translatable across preclinical and human subjects. Although psychosis is a major feature of schizophrenia, cognitive and negative symptoms determine the long-term functional outcomes for patients. Stimulus-evoked neural synchrony at gamma (~ 40 Hz) frequency plays an important role in the processing and integration of sensory information. Not surprisingly, schizophrenia patients show deficits in gamma oscillations. NMDA receptor (NMDAR) activation on fast-spiking parvalbumin-positive interneurons is deemed important for the generation of gamma oscillations. NMDA hypofunction has been proposed as an alternative hypothesis to the well-known dopamine dysregulation to explain the neurochemical abnormalities associated with schizophrenia. For this dissertation, we validated a preclinical model to pharmacologically probe NMDA-mediated gamma oscillations by further characterizing the auditory-steady state response (ASSR) in female Sprague Dawley rats. The ASSR is a measure of cortical neural synchrony evoked in response to periodic auditory stimuli. ASSR at 40 Hz is consistently disrupted in patients. First, we established the reliability of click train-evoked 40 Hz ASSR and tone-evoked gamma oscillations in 6 separate sessions, spread over a 3-week period. Then we established the sensitivity of these neural synchrony measures to acute NMDAR blockade using the high affinity NMDA channel blocker MK-801, using a repeated measures design. Next, we compared the reliability and sensitivity of the 40 Hz ASSR from two distinct recording sites. Results from this study showed that as compared to vertex, temporal recording showed a greater gamma synchrony. However, the temporal recording had poor test-retest reliability and lower sensitivity to MK-801-induced disruption. Lastly, we characterized the dose-response profiles of an NMDA co-agonist D-serine, an atypical (clozapine) and a typical (haloperidol) antipsychotic, on the 40 Hz ASSR. Results from these studies showed that only clozapine was effective in robustly augmenting 40 Hz ASSR. Furthermore, only clozapine pretreatment had partial protective effect against MK-801 induced ASSR disruption. Overall, this work establishes that vertex recorded 40 Hz ASSR is a reliable neural synchrony biomarker in female SD rats that is amenable for bidirectional pharmacodynamic modulation.

Schizophrenia

Gamma oscillation

40 Hz ASSR

NMDA

MK-801

Clozapine

Neural Synchrony

Event Related

E/I

Pharmacodynamic Biomarker

Pharmacology

Systems Neuroscience

Effects of the NMDA Receptor Antagonist MK-801 on the Timing and Temporal Processing of Short-Intervals in Rats

Miller, Jonathan P.

04 November 2005

No description available.

Short-Interval Timing

Temporal Processing

Peak-Interval Procedure

Operant Behavior

NMDA Receptor

MK-801

Rats

Fisher 344