The Role of the Glutamatergic System in Psychiatric Behavioral Endophenotypes in Mice: Implications for Schizophrenia

Labrie, Viviane

18 February 2010

Reduced activity of the N-methyl-D-aspartate receptor (NMDAR) has been implicated in the pathophysiology of schizophrenia. The NMDAR contains a glycine site on the NR1 subunit that may be a promising therapeutic target for psychiatric illness. Recently, D-serine has been discovered to be a high-affinity endogenous activator of the NMDAR glycine site. Levels of D-serine in the brain are controlled by its synthesis enzyme serine racemase (Srr) and its catabolic enzyme D-amino acid oxidase (DAO). This work investigates the NMDAR glycine site, D-serine, and D-serine-regulatory enzymes Srr and DAO in the pathophysiology and treatment of symptomatology relevant to schizophrenia and other psychiatric disorders. Pharmacological and genetic mouse models were used to alter glycine site function and D-serine availability. Behavioral responses in these models were assessed. Administration of exogenous D-serine and the glycine transporter 1 (GlyT-1) inhibitor ALX-5407 improved performance of C57BL/6J mice in behavioral tests examining prepulse inhibition (PPI) or latent inhibition (LI). These compounds also reversed impairments induced by the NMDAR antagonist MK-801, and produced similar beneficial effects to the classical atypical antipsychotic clozapine. Mice carrying a point mutation that leads to diminished NMDAR glycine site function demonstrated abnormally persistent LI and deficits in social approach and spatial recognition that were reversible by D-serine or clozapine administration. Similarly, mutant mice that lacked Srr function and had a severe reduction in D-serine displayed impairments in sociability, PPI, spatial recognition and memory. Behavioral deficits in mice without Srr were exacerbated by MK-801 and rescued by treatment with D-serine or clozapine. A genetically-induced loss of DAO function in mice resulted in the elevation of brain D-serine levels, and produced improvements in spatial reversal memory and extinction of a learned response in the Morris water maze, consistent with the effects of exogenous D-serine application in wild-type mice. Thus, deficiencies in NMDAR glycine site function and D-serine availability produce behavioral disturbances that are relevant to the negative and cognitive symptoms of schizophrenia. Activation of the NMDAR glycine site by D-serine, GlyT-1 inhibition, or diminished DAO activity may be beneficial for the treatment of schizophrenia and other psychopathologies involving cognitive dysfunction and persistent repetitive behaviors.

NMDA receptor

D-serine

genetic animal models

behavioral neuroscience

schizophrenia

0317

EFFECTS OF CORTICOSTERONE AND ETHANOL CO-EXPOSURE ON HIPPOCAMPAL TOXICITY: POTENTIAL ROLE FOR THE NMDA NR2B SUBUNIT

Butler, Tracy Renee

01 January 2011

Chronic ethanol (EtOH) exposure produces neuroadaptations within the NMDA receptor system and alterations in HPA axis functioning that contribute to neurodegeneration during ethanol withdrawal (EWD). Chronic EtOH exposure and EWD, as well as corticosteroids, also promote increased synthesis and release of polyamines, which allosterically potentiate NMDA receptor open-channel time at the NR2B subunit. The current studies investigated effects of 10 day EtOH and corticosterone (CORT) co-exposure on toxicity during EWD in rat organotypic hippocampal slice cultures, and alterations in function and/or density of the NR2B subunit of the NMDA receptor that may mediate CORT-potentiation of toxicity during EWD. We hypothesized that toxicity during withdrawal following EtOH and CORT co-exposure would be greatest in the CA1 region due to increased NMDA NR2B receptor abundance and/or function. Cultures were exposed to CORT (0.01–1 μM) during 10 day EtOH exposure (50 mM) and 1 day EWD. Additional EtOH-naïve cultures were exposed to CORT for 11 days. Propidium iodide (PI) was used to measure toxicity in the CA1, CA3, and DG hippocampal regions. In EtOH-naïve cultures, 11 day exposure to CORT (0.01 – 1 μM) produced modest toxicity and in all regions. Exposure to CORT during EtOH exposure/EWD potentiated CORT-toxicity at all concentrations in the CA1 region. Ifenprodil, an NR2B polyamine site antagonist, significantly reduced toxicity from EtOH and CORT (0.1 μM) co-exposure during withdrawal. Immunohistochemistry and Western blot analyses were conducted for measurement of NR2B immunoreactivity in organotypic cultures, and autoradiography studies were conducted for measurement of polyamine-sensitive NR2B subunits with [3H]ifenprodil. Consistent increases in NR2B subunit protein were not detected with use of any methodology. Additional studies exposed cultures to a membrane impermeable form of CORT (BSA-conjugated CORT; 0.1 μM) with or without EtOH exposure and withdrawal. BSA-CORT exposure did not produce toxicity in any hippocampal region, suggesting that CORT toxicity was not mediated by membrane bound substrates. These data suggest that CORT and EtOH co-exposure result in increased function of polyamine-sensitive NR2B subunits, but this toxicity does not appear dependent on the number of hippocampal NMDA NR2B subunits.

Ethanol Withdrawal

NMDA Receptor

Corticosterone

Hippocampus

Alcohol Dependence

Biology

Social and Behavioral Sciences

Behavioural, pharmacological and neurochemical studies of social isolation rearing in rats / Carl Toua

Toua, Carl Christiaan

January 2007

Thesis (M.Sc. (Pharmacology))--North-West University, Potchefstroom Campus, 2008.

Schizophrenia

NMDA receptor

Social isolation

Dizocilpine

Clozapine

Haloperidol

D1 receptor

Prepulse inhibition

Animal model

Frontal cortex

Behavioural, pharmacological and neurochemical studies of social isolation rearing in rats / Carl Toua

Toua, Carl Christiaan

January 2007

Thesis (M.Sc. (Pharmacology))--North-West University, Potchefstroom Campus, 2008.

Schizophrenia

NMDA receptor

Social isolation

Dizocilpine

Clozapine

Haloperidol

D1 receptor

Prepulse inhibition

Animal model

Frontal cortex

The Role of the Glutamatergic System in Psychiatric Behavioral Endophenotypes in Mice: Implications for Schizophrenia

Labrie, Viviane

18 February 2010

Reduced activity of the N-methyl-D-aspartate receptor (NMDAR) has been implicated in the pathophysiology of schizophrenia. The NMDAR contains a glycine site on the NR1 subunit that may be a promising therapeutic target for psychiatric illness. Recently, D-serine has been discovered to be a high-affinity endogenous activator of the NMDAR glycine site. Levels of D-serine in the brain are controlled by its synthesis enzyme serine racemase (Srr) and its catabolic enzyme D-amino acid oxidase (DAO). This work investigates the NMDAR glycine site, D-serine, and D-serine-regulatory enzymes Srr and DAO in the pathophysiology and treatment of symptomatology relevant to schizophrenia and other psychiatric disorders. Pharmacological and genetic mouse models were used to alter glycine site function and D-serine availability. Behavioral responses in these models were assessed. Administration of exogenous D-serine and the glycine transporter 1 (GlyT-1) inhibitor ALX-5407 improved performance of C57BL/6J mice in behavioral tests examining prepulse inhibition (PPI) or latent inhibition (LI). These compounds also reversed impairments induced by the NMDAR antagonist MK-801, and produced similar beneficial effects to the classical atypical antipsychotic clozapine. Mice carrying a point mutation that leads to diminished NMDAR glycine site function demonstrated abnormally persistent LI and deficits in social approach and spatial recognition that were reversible by D-serine or clozapine administration. Similarly, mutant mice that lacked Srr function and had a severe reduction in D-serine displayed impairments in sociability, PPI, spatial recognition and memory. Behavioral deficits in mice without Srr were exacerbated by MK-801 and rescued by treatment with D-serine or clozapine. A genetically-induced loss of DAO function in mice resulted in the elevation of brain D-serine levels, and produced improvements in spatial reversal memory and extinction of a learned response in the Morris water maze, consistent with the effects of exogenous D-serine application in wild-type mice. Thus, deficiencies in NMDAR glycine site function and D-serine availability produce behavioral disturbances that are relevant to the negative and cognitive symptoms of schizophrenia. Activation of the NMDAR glycine site by D-serine, GlyT-1 inhibition, or diminished DAO activity may be beneficial for the treatment of schizophrenia and other psychopathologies involving cognitive dysfunction and persistent repetitive behaviors.

NMDA receptor

D-serine

genetic animal models

behavioral neuroscience

schizophrenia

0317

An Investigation of Sigma-1 Receptor Involvement in Glutamatergic Synaptic Physiology, Implications for Alzheimer’s Disease

McCann, Kieran

January 2015

The sigma-1 receptor (sig-1R) is a unique endoplasmic reticulum (ER) chaperone protein that interacts with a variety of voltage- and ligand-gated ion channels, which are components of an intricate system that regulates neuronal functioning. While there is an extensive body of knowledge pertaining to the sig-1R, many questions remain. The first question this thesis addresses is how the sig-1R modulates the functioning of the N-methyl-D-aspartate receptor (NMDAR). Using a heterologous expression system, I provide evidence that the mechanism of modulation is likely not a direct interaction between sig-1R and NMDAR and that this is not affected by the presence or absence of the membrane-associated guanylate kinases (MAGUK) protein PSD-95. The next question addressed investigates the impact of sig-1R absence on the synaptic physiology and action potential firing of CA1 pyramidal neurons. It was found that there is not a significant difference in these parameters, suggesting a non-essential role of the sig- 1R under normal physiological conditions. The third topic covered in my studies explores the sig-1R KO mouse in the Aβ25-35 infusion model of Alzheimer’s disease (AD). Preliminary results suggest that there is a dysfunction in the action potential characteristics and after- hyperpolarization characteristics of challenged sig-1R KO mice. Overall my results provide the groundwork for future experiments that will lead to a better understanding of the sig-1R and its role in cellular and synaptic physiology.

Sigma-1 receptor

NMDA Receptor

Alzheimer's Disease

Hippocampus

Electrophysiology

Pyramidal neuron

Dynamique des interactions protéiques lors de la maturation synaptique : etude du trafic de surface des récepteurs NMDA

Bard, Lucie

03 December 2009

Les synapses se forment selon plusieurs étapes comprenant la synaptogenèse, la maturation et la plasticité synaptique. Les molécules d’adhésion et les récepteurs ionotropiques du glutamate ont des rôles clés dans ces processus. Lors de ma thèse, je me suis intéressée à la dynamique des interactions impliquant deux protéines membranaires, la N-cadhérine et le récepteur NMDA. La N-cadhérine joue un rôle important dans l’induction de la croissance axonale mais les mécanismes moléculaires sous-jacents sont peu connus. Par des approches de vidéo-microscopie et de pinces optiques, j’ai démontré que la transmission directe des forces générées par le flux rétrograde d’actine aux adhésions N-cadhérines, via les caténines, induit l’avancée du cône de croissance. Les récepteurs NMDA synaptiques ont un rôle crucial dans la maturation et la plasticité synaptique, néanmoins, les mécanismes moléculaires régulant la distribution des récepteurs NMDA synaptiques sont peu connus. En combinant le développement de peptides compétiteurs divalents et des approches d’imagerie haute résolution, nous avons étudié la dynamique de surface des récepteurs NMDA endogènes. Mes résultats montrent que l’interaction dynamique entre les protéines d’échafaudage à domaine PDZ et les récepteurs NMDA contenant la sous-unité NR2A régule leur rétention synaptique et leur distribution de surface. Le déplacement des récepteurs NMDA contenant la sous-unité NR2A en dehors des synapses est compensé par une insertion synaptique de récepteurs contenant la sous-unité NR2B, indiquant que l’ancrage synaptique des différents sous-types de récepteurs NMDA est différentiellement régulé. De plus, cette redistribution des récepteurs NMDA affecte la maturation et la plasticité synaptique. L’ensemble de ces résultats révèle une régulation rapide et spécifique des récepteurs NMDA synaptiques par les protéines à domaine PDZ suggérant un rôle de l’organisation de la densité postsynaptique dans la stabilisation synaptique des récepteurs et les processus adaptatifs. / The formation of synapses follows different steps including synaptogenesis, maturation and plasticity. Adhesion molecules and ionotropic receptors play key roles in these processes. During my thesis, I have been interested in the dynamics of the interactions mediated by two membrane proteins, N-cadherin and the NMDA receptor N-cadherin plays important roles in axon outgrowth, but the molecular mechanisms underlying this effect are mostly unknown. Using live imaging and optical trapping, I demonstrated that the direct transmission of actin-based traction forces to N-cadherin adhesions, through catenin partners, drives growth cone advance. Synaptic NMDA receptors (NMDARs) play key roles during synaptic refinement and plasticity, however the molecular mechanisms that govern the distribution of the synaptic surface NMDARs are largely unknown. We investigated the dynamics of endogenous NMDARs using high-resolution single particle imaging and a newly-developed biomimetic divalent competing ligand. My results show that the dynamic interaction between PDZ domain-containing scaffold proteins and NR2A-NMDARs regulates their synaptic retention and surface distribution. Interestingly, a rapid displacement of NR2A-NMDARs out of synapses is paralleled by a compensatory increase in NR2B-NMDARs, providing functional evidence that the sites of synaptic anchoring of native surface NR2-NMDARs are different. Furthermore, such redistribution of surface NR2-NMDARs strongly impairs synaptic maturation and plasticity. Together, these data reveal a rapid and specific regulation of surface NR2-NMDARs by PDZ domain-containing scaffolds in synapses, supporting a role of the postsynaptic density architecture in regulating specific NR2-NMDAR retention and synaptic adaptation.

N-cadhérine

Récepteur NMDA

Synapse

Développement

Trafic

N-cadherin

NMDA receptor

Synapse

Development

Trafficking

Příprava neuroaktivních steroidů pro studium NMDA receptorů / Preparation of neuroactive steroids for study of NMDA receptors

Vidrna, Lukáš

January 2011

Neurosteroids are an important group of substances that affect communication between neurons. They act as allosteric modulators of membrane receptors for neurotransmitters. One of the most important systems influenced by neurosteroids are NMDA receptors; however, a binding site(s) for their inhibition by steroids have not been found yet. This work is focused on the synthesis of fluorescently labeled photoaffinity probe, which may help explain the structure and location of binding site(s) and simplify the development of new neuroprotectives. A structural analogue of the endogenous neurosteroid, (20S)-20-Azido-5β-pregnan- 3α-yl N-(7-nitrobenz-2-oxa-1,3-diazole-4-yl)-L-glutamyl 1-ester (8), was prepared. The structure of compound 8 includes photolabile azido group, as well as covalently bounded fluorescent NBD group. In addition, a photoaffinity probe with a modified steroid skeleton - pyridinium 17aα-azido-17α-methyl-17a-homo-5β-androstan-3α-yl 3-sulfate (29) - was synthesized. The ability of compound 8 and 29 to inhibit activated NMDA receptor has been verified for recombinant NR1-1a/NR2B receptors expressed in HEK293 cells using a patch-clamp technique. Additionally, the IC50 values of compounds 8 and 29 have been calculated. (In Czech) Key words: neuroactive steroid, NMDA receptor, photoffinity...

Vliv neuroaktivních steroidů inhibujících NMDA receptory na chování / The influence of the neuroactive steroids inhibiting NMDA receptors on behaviour

Chvojková, Markéta

January 2013

The neuroactive steroid pregnanolone glutamate (Pg glu), a synthetic analogue of the naturally occurring pregnanolone sulfate (3alpha5betaS), has neuroprotective properties and a minimum of adverse effects. The subject of my thesis is the influence of selected structural modifications of the molecule Pg glu on biological effects. The first modification involves an increase of lipophilicity, the second involves the attachment of a positively charged group to C3. All these neuroactive steroids are use-dependent inhibitors of NMDA receptors. The first aim of this thesis was to determine the neuroprotective effectiveness of the neuroactive steroids chosen. The second aim was to explore the influence of selected neuroactive steroids on motor coordination, reflexes, anxiety and locomotor activity, as well as the effect of their high doses. The third aim was to create a battery of behavioural tests for screening the biological effects of analogues of Pg glu in laboratory rodents. The neuroprotective effects were evaluated in a model of excitotoxic damage of hippocampus in the rat on the basis of its behavioural consequences. The neuroprotective efficacy of androstane glutamate (And glu) and Pg glu was demonstrated. In the case of positively charged molecules, neuroprotective efficacy was not demonstrated....

Farmakologický animální model Alzheimerovy demence (model Samaritán) a mediátorový systém N-methyl-D-aspartátového receptoru a oxidu dusnatého / Pharmacological animal model of Alzheimer's disease (rat model Samaritan) and mediator system of N-methyl-D-aspartate receptor and nitric oxide

Matušková, Hana

January 2016

Alzheimer's disease is a neurodegenerative disorder with the highest prevalence in the population and for which we do not have a cure so far. The aim of this thesis was to test the mediator system of the N-methyl-D-aspartate receptor and nitric oxide in an animal model of sporadic form of Alzheimer's disease (Samaritan Alzheimer's Rat Model; Taconic Pharmaceuticals, USA). Then compare these results with changes in hippocampal cholinergic system and cognitive tests. The Samaritan rat model is based on the unilateral in vivo application of β-amyloid42 and the pro-oxidative substances (ferrous sulfate heptahydrate and L-buthionine-(S,R)-sulfoximine). Neurochemical methods included testing of the NR1/NR2A/NR2B subunits of the N-methyl-D-aspartate receptor and activity of nitric oxide synthases (neuronal, endothelial, inducible) in the cortex, in both cases in the right and left hemisphere separately. Our results show that Samaritan rats exhibited significant changes in expression of NR2A/NR2B subunits of the N-methyl-D-aspartate receptor and activity of inducible nitric oxide synthase in cortex compared to control rats. The results of glutamatergic system are consistent with changes in activity of cholinergic transporter and cognitive tests (Morris water maze and active allothetic place avoidance)....