Spinophilin-dependent regulation of the phosphorylation, protein interactions, and function of the GluN2B subunit of the NMDAR and its implications in neuronal cell death

Asma Beiraghi Salek (9746078)

07 January 2021

Excitotoxicity, a major hallmark of neurodegeneration associated with cerebral ischemia, is a result of accumulation of extracellular glutamate. This excess glutamate leads to hyperactivation of glutamate receptors such as the N-methyl-D-asparate (NMDA) receptors (NMDARs) following the activation of α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) receptor (AMPARs). Excessive activation of NMDARs causes an influx of calcium, which can eventually activate apoptotic pathways and lead to death of neurons. Regulation of NMDAR subunit composition, localization, surface expression, and activity can balance cell survival via activation of either pro-death or pro-survival pathways after a course of an ischemic insult. Specifically, phosphorylation of different NMDAR subunits defines their activity and downstream signaling pathways. NMDARs are phosphorylated by multiple kinases and dephosphorylated by different phosphatases. Besides phosphatases and kinases, per se, phosphorylation of synaptic proteins that regulate kinase or phosphatase targeting and activity also mediate NMDAR phosphorylation. Spinophilin, a major synaptic scaffolding and protein phosphatase 1 (PP1) targeting protein, mediates substrate phosphorylation via its ability to bind PP1. Our studies focus on delineating the role of spinophilin in the regulation of phosphorylation and function of the GluN2B subunit of the NMDA receptor as well as the role of spinophilin in modulating glutamate-induced neurotoxicity. Interestingly, our data demonstrate that spinophilin sequesters PP1 away from GluN2B thereby enhancing phosphorylation of GluN2B at Ser-1284. These changes impact GluN2B protein interactions, subcellular localization, and surface expression, leading to alterations in the amount of calcium entering the neuron via GluN2B-containing NMDARs. Our data show that spinophilin biphasically regulates GluN2B function. Specifically, Ser-1284 phosphorylation enhances calcium influx through GluN2B containing NMDA receptors, but spinophilin leads to dramatic decreases in the surface expression of the receptor independent of Ser-1284 phosphorylation. Moreover, in spinophilin knockout mice, we observe less PP1 binding to GluN2B and less phosphorylation of Ser-1284, but more surface expression of GluN2B and greater levels of caspase activity. Together, these observations suggest a potential neuroprotective role for spinophilin by decreasing GluN2B-containing NMDA receptor-dependent surface expression and thereby decreasing intracellular calcium and neuronal cell death.

Cell Biology

Molecular Biology

Neuroscience

Cell Neurochemistry

NMDAR

NMDA receptor

GluN2B

GluN2B Ser-1284

Spinophilin

Phosphorylation

Phosphatase

PP1

Ischemia

Excitotoxicity

Cell death

Calcium influx

Mechanizmus regulace transportu NMDA receptorů na buněčný povrch / The mechanism of regulation of NMDA receptors transport to the cell surface

Lichnerová, Katarína

January 2013

N-methyl-D-aspartate (NMDA) receptors are a class of ionotropic glutamate receptors, involved in excitatory synaptic transmission, synaptic plasticity and excitotoxicity. They form heterotetrameric complexes composed of GluN1, GluN2A-D and/or GluN3A-B subunits that are activated by glutamate and glycine. Previous reports showed that different subunits of NMDA receptors, especially the GluN2 subunits, confer different functional and pharmacological properties on the receptor complexes. However, the subunit-dependent differences in the regulation of intracellular processing and transport of NMDA receptor subtypes has not been clearly elucidated. The aim of this work was to clarify the mechanisms of regulation of the NMDA receptor transport. In our experiments we performed immunocytochemistry of receptors on heterologous COS-7 cells and cultured cerebellar granule cells (CGC), both expressing recombinant NMDA receptors. The results of my work show that the transport of NMDA receptors is regulated by presence of GluN2A and GluN2B subunits. Our results further showed that transport of the GluN1/GluN2C receptors is regulated by three specific areas of the GluN2C subunit: i) the A2 segment within the amino- terminal domain, ii.) the M3 domain, and iii.) the proximal part of the C-terminus containing the...

Interakce steroidu s NMDA receptorem: Strukturně-aktivitní studie a vliv na mutované lidské formy NMDA receptorů / Steroid - NMDA receptor interaction: Structure-activity study and effect on mutant forms of human NMDA receptors

Krausová, Barbora

January 2018

N-methyl-D-aspartate (NMDA) receptors are glutamate-gated calcium permeable ion channels that play a key role in excitatory synaptic transmission and plasticity, and their dysfunction underlies several neuropsychiatric disorders. The overactivation of NMDA receptors by tonically increased ambient glutamate can lead to excitotoxicity, associated with various acute and chronic neurological disorders, such as ischemia, Alzheimer and Parkinson's disease, epilepsy or depression. On the opposite, NMDA receptor hypofunction is thought to be implicated in autism, schizophrenia, or intellectual disability. Recent DNA screening for neurological and psychiatric patients revealed numerous mutations in genes encoding for NMDA receptor subunits. The activity of NMDA receptors is influenced by a wide variety of allosteric modulators, including neurosteroids that could both inhibit and potentiate the activity of NMDA receptors, which makes them promising therapeutic targets. In this thesis, we describe new classes of neurosteroid analogues which possess structural modifications at carbons C3 and C17 of the steroidal core, and analogues without D-ring region (perhydrophenanthrenes). We evaluated the structure-activity relationship (SAR) for their modulatory effect on recombinant GluN1/GluN2B receptors. Our results...

Výpočetní studie interakcí malých molekul s jejich biologickými cíly / Computational Studies of Interactions of Small Molecules with their Biological Targets

Nekardová, Michaela

January 2020

The thesis specializes in the computational description of pharmaceutically important compounds. A substantial number of pharmaceutical drugs are small molecules that are bound to an active site of an enzyme by the "lock (binding site) and key (drug)" model through non-covalent interactions. The association of enzymes with drugs cause an increase or decrease in the activity of enzymes. The main topic is focused on the computational elucidation of the structural basis for the interactions of the purine-like compounds with the enzyme cyclin- dependent kinase 2 that belongs to the protein-kinase enzyme family. These enzymes play an important role in the cell cycle regulation; their increased activity significantly contributes to the loss of control over cell proliferation, which is one of the primary causes of cancer cell formation. The study describes the binding motifs of roscovitine, which shows an inhibitory effect on the function of cyclin-dependent kinases, and its analogues containing bioisosteric central heterocycles in the complex with cyclin-dependent kinase 2. The binding affinity between the cyclin-dependent kinase 2 enzyme and the inhibitors was quantified as calculated binding scores and evaluated in relation to the conformation of the optimized structures. The hybrid model combining the...

Anti-NMDA receptor encephalitis and overlapping demyelinating disorder in a 20-year old female with borderline personality disorder: proposal of a diagnostic and therapeutic algorithm for autoimmune encephalitis in psychiatric patients “case report”

Weiss, David, Kertzscher, Lisa, Degering, Magdalena, Wozniak, David, Kluge, Michael

18 February 2022

Background: Anti-NMDA receptor encephalitis (NMDAR-E) is an autoimmune encephalitis (AE) mainly affecting young females. It typically presents with isolated psychiatric symptoms (e.g. depressed mood) at first and neurological abnormalities (e.g. seizures, movement disorders) only develop later. Thus, there is a high risk of overlooking NMDAR-E in patients with preexisting psychiatric illness due to symptom overlap in the prodromal period of the disease when treatment is most effective. Although rare, concomitant or sequential development of a demyelinating disorder is increasingly recognized as an associated disease entity (overlap syndrome), with immediate diagnostic and therapeutic implications. Case presentation: We report a patient with a borderline personality disorder (BPD), which developed NMDAR-E and an overlapping demyelinating disorder with anti-Myelin oligodendrocyte glycoprotein (MOG) -IgG positivity. The initial clinical presentation with predominantly affective symptoms (e.g. mood lability, anxiety, depressed mood) lead us to suspect an exacerbation of the BPD at first. However, acute changes in premorbid behavior, newly developed psychotic symptoms and memory deficits lead us to the correct diagnosis of an AE, which was further complicated by the development of a demyelinating disorder. As a result of impaired illness awareness and psychosis, diagnostic and treatment was difficult to carry out. The symptoms completely remitted after treatment with methylprednisolone 1 g daily for 5 days and 5 cycles of plasma exchange. Conclusions: Continuous awareness for neuropsychiatric clinical warning signs in patients with a pre-diagnosed psychiatric disorder is important for a timely diagnosis. Therefore, we believe that the diagnostic and therapeutic algorithm provided here, for the first time specifically addressing patients with preexisting psychiatric illness and integrating overlap syndromes, can be a useful tool. Moreover, in order to timely perform diagnostics and treatment, judicial approval should be obtained rapidly.

info:eu-repo/classification/ddc/150

ddc:150

Altered NMDA Receptor Composition and Function Contribute to Deficits in Forebrain-Dependent Learning and Memory in Adult Rats Exposed to Ethanol as Neonates

Goodfellow, Molly Jo

06 June 2014

No description available.

Behavioral Sciences

Neurosciences

Psychobiology

D-amino acid oxidase, D-serine and the dopamine system : their interactions and implications for schizophrenia

Betts, Jill Frances

January 2012

D-amino acid oxidase (DAO) is a flavin-dependent enzyme that is expressed in the mammalian brain. It is the metabolising enzyme of several D-amino acids, including D serine, which is an endogenous agonist at the glycine co-agonist site of the glutamatergic NMDA receptor. As such, regulation of D serine levels in the brain by DAO may indirectly modulate the activity of NMDA receptors. The expression and activity of DAO have been reported to be increased in schizophrenia. It has been identified as a putative susceptibility gene for the disorder, and as a potential therapeutic target. This thesis explored three aspects of the interface between DAO and the DA system. First, the expression of DA was investigated in the ventral tegmental area (VTA), the source of the dopaminergic mesocortical pathway. Traditionally, DAO was considered to be an enzyme confined to the hindbrain and to glia, but more recent studies have reported its expression in additional brain regions, and also in neurons. DAO mRNA and protein was found to be expressed in the VTA, and was present in both neurons and glia in this region, whereas in the cerebellum, DAO expression appeared solely glial. DA output from the VTA is regulated by NMDA receptors, and hence expression of DAO in the VTA suggests that it may serve a role in modulating cortical DA via regulation of D serine levels and NMDA receptor function. The second part of this thesis investigated the effects of DAO inhibition and D serine administration on DA levels in the prefrontal cortex (PFC) using in vivo microdialysis. Systemic DAO inhibition and D serine administration resulted in increases in extracellular levels of DA metabolites in the PFC, despite no detectable change in DA. Similarly, DA metabolites in the PFC increased after local application of D serine to the VTA, but no change was detected in DA. However, local DAO inhibition in the VTA resulted in increased levels of both DA and its metabolites, and DAO inhibition combined with D serine administration also produced increases in DA. This suggested that DAO and its regulation of D-serine levels may serve to indirectly modulate mesocortical DA function, and this may be mediated via the VTA. This notion was supported in the final section of this thesis, in which the expression of three DA genes was measured in the PFC of a novel line of DAO knockout mice. In this pilot study, there was evidence for an increase in Comt and Drd2 mRNAs in the knockout mice. As such, constitutive abolition of DAO activity may also alter mesocortical DA function. These studies provide new insights into the presence and role of DAO beyond the hindbrain, and point to a potentially important physiological function in modulating the activity of the mesocortical DA system via the VTA. This could be therapeutically relevant in the context of elevating cortical DA in the treatment of schizophrenia, and may provide supporting evidence for the clinical use of DAO inhibitors.

616.898

Modulation cholinergique à long terme des potentiels évoqués visuels dans le cortex visuel chez le rat

Kang, Jun-Il

January 2007

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

Acétylcholine

Acetylcholine

Électrophysiologie

Electrophysiologie

Potentiel évoqué visuel

Visual evoked potential

Transmission thalamocorticale

Thalamocortical transmission

Modulation cholinergique

Cholinergic modulation

Récepteur NMDA

NMDA receptor

Plasticité corticale

Cortical plasticity

Potentialisation à long terme

Long-term potentiation

Cortex visuel

Visual cortex

La régulation et la fonction des protéines Argonaute dans les dendrites des neurones hippocampiques

Paradis-Isler, Nicolas

04 1900

No description available.

ARN messager

dégradation

dendrite

épine

microARN

neurone

phosphorylation

protéine Argonaute (AGO)

récepteur NMDA

traduction

Argonaute (AGO) protein;

degradation

messenger RNA (mRNA)

microRNA (miRNA)

neuron

NMDA receptor

phosphorylation

spine

translation

Estudio de los efectos de la reducción de la expresión de Dyrk1A, mediante interferencia de RNA, sobre el fenotipo motor del model transgénico TgDyrk1A. Implantación de kis receptores glutamatérgicos de tipo NMDA

Ortiz Abalia, Jon

15 May 2008

DYRK1A es uno de los principales genes candidatos que podrían explicar algunos de los defectos neurológicos asociados al fenotipo Síndrome de Down (SD); desde el retraso mental, rasgo común a todos los individuos con SD hasta los déficits motores, también muy frecuentes entre la población con SD. Con el fin de validar la implicación de DYRK1A en el fenotipo SD se ha desarrollado una estrategia de terapia génica basada en la reducción de la expresión del gen mediante interferencia del RNA, en el modelo transgénico TgDyrk1A, y se han evaluado los efectos en el fenotipo motor de estos animales. Además se ha estudiado la implicación de los receptores glutamatérgicos de tipo NMDA en las alteraciones motoras descritas en el modelo. Los resultados obtenidos en este trabajo ponen de manifiesto la validez de la estrategia desarrollada y apuntan a una desregulación de los receptores de NMDA como uno de los mecanismos moleculares subyacentes de las disfunción motora presente en el modelo TgDyrk1A. / The are growing evidences to consider DYRK1A as a candidate gene for some of the neurological alterations present in DS phenotype such as mental retardation which is a common feature in the syndrome, or motor deficits which show a high prevalence among DS individuals. With the aim to validate the contribution of Dyrk1A to DS phenothype, we have developped a gene therapy strategy based on RNA interference to reduce gene expression in the transgenic model TgDyrk1A, and we have evaluated the effects in the motor phenotype of these animals. Moreover, we have studied the implication of the NMDA glutamate receptor in the motor alterations present in the model. The results obtained validate the strategy developped and suggest the deregulation of the NMDA receptor as one of the main causes underlying motor dysfunction in TgDyrk1A mice.

AAV-2

adenoassociated-virus

motor alterations

NMDA receptor

gene therapy

RNA interference

TgDyrk1A

Dyrk1A

Down syndrome

núcleo estriado

cerebelo

estereotaxia

AAV-2

virus adenoasociados

receptor de NMDA

alteraciones motoras

terapia génica

RNA de interferencia

TgDyrk1A

Dyrk1A

síndrome de Down

stereotaxy

cerebellum

striatum

575