APP fragment controls both ionotropic and non-ionotropic signaling of NMDA receptors

Jade Dunot; Sebastien Moreno; Carine Gandin; Paula A. Pousinha; Mascia Amici; Julien Dupuis; Margarita Anisimova; Alex Winschel; Magalie Uriot; Samuel J. Petshow; Maria Mensch; Ingrid Bethus; Camilla Giudici; Heike Hampel; Benedikt Wefers; Wolfgang Wurst; Ronald Naumann; Michael C. Ashby; Bodo Laube; Karen Zito; Jack R. Mellor; Laurent Groc; Michael Willem; Hélène Marie

doi:10.1016/j.neuron.2024.05.027

APP fragment controls both ionotropic and non-ionotropic signaling of NMDA receptors

Jade Dunot, Sebastien Moreno, Carine Gandin, Paula A. Pousinha, Mascia Amici, Julien Dupuis, Margarita Anisimova, Alex Winschel, Magalie Uriot, Samuel J. Petshow, Maria Mensch, Ingrid Bethus, Camilla Giudici, Heike Hampel, Benedikt Wefers, Wolfgang Wurst, Ronald Naumann, Michael C. Ashby, Bodo Laube, Karen ZitoJack R. Mellor, Laurent Groc, Michael Willem, Hélène Marie

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

NMDA receptors (NMDARs) are ionotropic receptors crucial for brain information processing. Yet, evidence also supports an ion-flux-independent signaling mode mediating synaptic long-term depression (LTD) and spine shrinkage. Here, we identify AETA (Aη), an amyloid-β precursor protein (APP) cleavage product, as an NMDAR modulator with the unique dual regulatory capacity to impact both signaling modes. AETA inhibits ionotropic NMDAR activity by competing with the co-agonist and induces an intracellular conformational modification of GluN1 subunits. This favors non-ionotropic NMDAR signaling leading to enhanced LTD and favors spine shrinkage. Endogenously, AETA production is increased by in vivo chemogenetically induced neuronal activity. Genetic deletion of AETA production alters NMDAR transmission and prevents LTD, phenotypes rescued by acute exogenous AETA application. This genetic deletion also impairs contextual fear memory. Our findings demonstrate AETA-dependent NMDAR activation (ADNA), characterizing AETA as a unique type of endogenous NMDAR modulator that exerts bidirectional control over NMDAR signaling and associated information processing.

Original language	English
Pages (from-to)	2708-2720.e9
Journal	Neuron
Volume	112
Issue number	16
DOIs	https://doi.org/10.1016/j.neuron.2024.05.027
State	Published - 21 Aug 2024
Externally published	Yes

Keywords

APP
NMDA receptors
amyloid-β precursor protein
eta-secretase
hippocampus
long-term depression
memory
non-ionotropic signaling
spine shrinkage
synapse

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10.1016/j.neuron.2024.05.027

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Dunot, J., Moreno, S., Gandin, C., Pousinha, P. A., Amici, M., Dupuis, J., Anisimova, M., Winschel, A., Uriot, M., Petshow, S. J., Mensch, M., Bethus, I., Giudici, C., Hampel, H., Wefers, B., Wurst, W., Naumann, R., Ashby, M. C., Laube, B., ... Marie, H. (2024). APP fragment controls both ionotropic and non-ionotropic signaling of NMDA receptors. Neuron, 112(16), 2708-2720.e9. https://doi.org/10.1016/j.neuron.2024.05.027

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title = "APP fragment controls both ionotropic and non-ionotropic signaling of NMDA receptors",

abstract = "NMDA receptors (NMDARs) are ionotropic receptors crucial for brain information processing. Yet, evidence also supports an ion-flux-independent signaling mode mediating synaptic long-term depression (LTD) and spine shrinkage. Here, we identify AETA (Aη), an amyloid-β precursor protein (APP) cleavage product, as an NMDAR modulator with the unique dual regulatory capacity to impact both signaling modes. AETA inhibits ionotropic NMDAR activity by competing with the co-agonist and induces an intracellular conformational modification of GluN1 subunits. This favors non-ionotropic NMDAR signaling leading to enhanced LTD and favors spine shrinkage. Endogenously, AETA production is increased by in vivo chemogenetically induced neuronal activity. Genetic deletion of AETA production alters NMDAR transmission and prevents LTD, phenotypes rescued by acute exogenous AETA application. This genetic deletion also impairs contextual fear memory. Our findings demonstrate AETA-dependent NMDAR activation (ADNA), characterizing AETA as a unique type of endogenous NMDAR modulator that exerts bidirectional control over NMDAR signaling and associated information processing.",

keywords = "APP, NMDA receptors, amyloid-β precursor protein, eta-secretase, hippocampus, long-term depression, memory, non-ionotropic signaling, spine shrinkage, synapse",

author = "Jade Dunot and Sebastien Moreno and Carine Gandin and Pousinha, \{Paula A.\} and Mascia Amici and Julien Dupuis and Margarita Anisimova and Alex Winschel and Magalie Uriot and Petshow, \{Samuel J.\} and Maria Mensch and Ingrid Bethus and Camilla Giudici and Heike Hampel and Benedikt Wefers and Wolfgang Wurst and Ronald Naumann and Ashby, \{Michael C.\} and Bodo Laube and Karen Zito and Mellor, \{Jack R.\} and Laurent Groc and Michael Willem and H{\'e}l{\`e}ne Marie",

note = "Publisher Copyright: {\textcopyright} 2024 The Authors",

year = "2024",

month = aug,

day = "21",

doi = "10.1016/j.neuron.2024.05.027",

language = "English",

volume = "112",

pages = "2708--2720.e9",

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Dunot, J, Moreno, S, Gandin, C, Pousinha, PA, Amici, M, Dupuis, J, Anisimova, M, Winschel, A, Uriot, M, Petshow, SJ, Mensch, M, Bethus, I, Giudici, C, Hampel, H, Wefers, B, Wurst, W, Naumann, R, Ashby, MC, Laube, B, Zito, K, Mellor, JR, Groc, L, Willem, M & Marie, H 2024, 'APP fragment controls both ionotropic and non-ionotropic signaling of NMDA receptors', Neuron, vol. 112, no. 16, pp. 2708-2720.e9. https://doi.org/10.1016/j.neuron.2024.05.027

TY - JOUR

T1 - APP fragment controls both ionotropic and non-ionotropic signaling of NMDA receptors

AU - Dunot, Jade

AU - Moreno, Sebastien

AU - Gandin, Carine

AU - Pousinha, Paula A.

AU - Amici, Mascia

AU - Dupuis, Julien

AU - Anisimova, Margarita

AU - Winschel, Alex

AU - Uriot, Magalie

AU - Petshow, Samuel J.

AU - Mensch, Maria

AU - Bethus, Ingrid

AU - Giudici, Camilla

AU - Hampel, Heike

AU - Wefers, Benedikt

AU - Wurst, Wolfgang

AU - Naumann, Ronald

AU - Ashby, Michael C.

AU - Laube, Bodo

AU - Zito, Karen

AU - Mellor, Jack R.

AU - Groc, Laurent

AU - Willem, Michael

AU - Marie, Hélène

PY - 2024/8/21

Y1 - 2024/8/21

N2 - NMDA receptors (NMDARs) are ionotropic receptors crucial for brain information processing. Yet, evidence also supports an ion-flux-independent signaling mode mediating synaptic long-term depression (LTD) and spine shrinkage. Here, we identify AETA (Aη), an amyloid-β precursor protein (APP) cleavage product, as an NMDAR modulator with the unique dual regulatory capacity to impact both signaling modes. AETA inhibits ionotropic NMDAR activity by competing with the co-agonist and induces an intracellular conformational modification of GluN1 subunits. This favors non-ionotropic NMDAR signaling leading to enhanced LTD and favors spine shrinkage. Endogenously, AETA production is increased by in vivo chemogenetically induced neuronal activity. Genetic deletion of AETA production alters NMDAR transmission and prevents LTD, phenotypes rescued by acute exogenous AETA application. This genetic deletion also impairs contextual fear memory. Our findings demonstrate AETA-dependent NMDAR activation (ADNA), characterizing AETA as a unique type of endogenous NMDAR modulator that exerts bidirectional control over NMDAR signaling and associated information processing.

AB - NMDA receptors (NMDARs) are ionotropic receptors crucial for brain information processing. Yet, evidence also supports an ion-flux-independent signaling mode mediating synaptic long-term depression (LTD) and spine shrinkage. Here, we identify AETA (Aη), an amyloid-β precursor protein (APP) cleavage product, as an NMDAR modulator with the unique dual regulatory capacity to impact both signaling modes. AETA inhibits ionotropic NMDAR activity by competing with the co-agonist and induces an intracellular conformational modification of GluN1 subunits. This favors non-ionotropic NMDAR signaling leading to enhanced LTD and favors spine shrinkage. Endogenously, AETA production is increased by in vivo chemogenetically induced neuronal activity. Genetic deletion of AETA production alters NMDAR transmission and prevents LTD, phenotypes rescued by acute exogenous AETA application. This genetic deletion also impairs contextual fear memory. Our findings demonstrate AETA-dependent NMDAR activation (ADNA), characterizing AETA as a unique type of endogenous NMDAR modulator that exerts bidirectional control over NMDAR signaling and associated information processing.

KW - APP

KW - NMDA receptors

KW - amyloid-β precursor protein

KW - eta-secretase

KW - hippocampus

KW - long-term depression

KW - memory

KW - non-ionotropic signaling

KW - spine shrinkage

KW - synapse

UR - http://www.scopus.com/inward/record.url?scp=85197044712&partnerID=8YFLogxK

U2 - 10.1016/j.neuron.2024.05.027

DO - 10.1016/j.neuron.2024.05.027

M3 - Article

C2 - 38878768

AN - SCOPUS:85197044712

SN - 0896-6273

VL - 112

SP - 2708-2720.e9

JO - Neuron

JF - Neuron

IS - 16

ER -

APP fragment controls both ionotropic and non-ionotropic signaling of NMDA receptors

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Keywords

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