Rabphilin 3A retains NMDA receptors at synaptic sites through interaction with GluN2A/PSD-95 complex

Jennifer Stanic; Mario Carta; Ivano Eberini; Silvia Pelucchi; Elena Marcello; Armando A. Genazzani; Claudia Racca; Christophe Mulle; Monica Di Luca; Fabrizio Gardoni

doi:10.1038/ncomms10181

Rabphilin 3A retains NMDA receptors at synaptic sites through interaction with GluN2A/PSD-95 complex

Jennifer Stanic, Mario Carta, Ivano Eberini, Silvia Pelucchi, Elena Marcello, Armando A. Genazzani, Claudia Racca, Christophe Mulle, Monica Di Luca, Fabrizio Gardoni

Dipartimento di Scienze del Farmaco

Risultato della ricerca: Contributo su rivista › Articolo in rivista › peer review

Abstract

NMDA receptor (NMDAR) composition and synaptic retention represent pivotal features in the physiology and pathology of excitatory synapses. Here, we identify Rabphilin 3A (Rph3A) as a new GluN2A subunit-binding partner. Rph3A is known as a synaptic vesicle-associated protein involved in the regulation of exo- and endocytosis processes at presynaptic sites. We find that Rph3A is enriched at dendritic spines. Protein-protein interaction assays reveals that Rph3A N-terminal domain interacts with GluN2A(1349-1389) as well as with PSD-95(PDZ3) domains, creating a ternary complex. Rph3A silencing in neurons reduces the surface localization of synaptic GluN2A and NMDAR currents. Moreover, perturbing GluN2A/Rph3A interaction with interfering peptides in organotypic slices or in vivo induces a decrease of the amplitude of NMDAR-mediated currents and GluN2A density at dendritic spines. In conclusion, Rph3A interacts with GluN2A and PSD-95 forming a complex that regulates NMDARs stabilization at postsynaptic membranes.

Lingua originale	Inglese
Numero di articolo	10181
Rivista	Nature Communications
Volume	6
DOI	https://doi.org/10.1038/ncomms10181
Stato di pubblicazione	Pubblicato - 18 dic 2015

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10.1038/ncomms10181

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title = "Rabphilin 3A retains NMDA receptors at synaptic sites through interaction with GluN2A/PSD-95 complex",

abstract = "NMDA receptor (NMDAR) composition and synaptic retention represent pivotal features in the physiology and pathology of excitatory synapses. Here, we identify Rabphilin 3A (Rph3A) as a new GluN2A subunit-binding partner. Rph3A is known as a synaptic vesicle-associated protein involved in the regulation of exo- and endocytosis processes at presynaptic sites. We find that Rph3A is enriched at dendritic spines. Protein-protein interaction assays reveals that Rph3A N-terminal domain interacts with GluN2A(1349-1389) as well as with PSD-95(PDZ3) domains, creating a ternary complex. Rph3A silencing in neurons reduces the surface localization of synaptic GluN2A and NMDAR currents. Moreover, perturbing GluN2A/Rph3A interaction with interfering peptides in organotypic slices or in vivo induces a decrease of the amplitude of NMDAR-mediated currents and GluN2A density at dendritic spines. In conclusion, Rph3A interacts with GluN2A and PSD-95 forming a complex that regulates NMDARs stabilization at postsynaptic membranes.",

author = "Jennifer Stanic and Mario Carta and Ivano Eberini and Silvia Pelucchi and Elena Marcello and Genazzani, \{Armando A.\} and Claudia Racca and Christophe Mulle and \{Di Luca\}, Monica and Fabrizio Gardoni",

note = "Funding Information: We thank A. Longhi and E. Zianni for technical assistance. We thank the Electron Microscopy Research Services, Faculty of Medical Sciences, Newcastle University. This work was supported by European Community FP7 Contract 238608—Symbad (to M.D.L. and C.M.), PRIN 2010–2011 (2010AHHP5H\_002 to F.G.) and Cariplo Foundation Project 2013–0795 (to M.D.L. and A.A.G.) and Cariplo Foundation Project 2014-0660 (to F.G.).",

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doi = "10.1038/ncomms10181",

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journal = "Nature Communications",

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T1 - Rabphilin 3A retains NMDA receptors at synaptic sites through interaction with GluN2A/PSD-95 complex

AU - Stanic, Jennifer

AU - Carta, Mario

AU - Eberini, Ivano

AU - Pelucchi, Silvia

AU - Marcello, Elena

AU - Genazzani, Armando A.

AU - Racca, Claudia

AU - Mulle, Christophe

AU - Di Luca, Monica

AU - Gardoni, Fabrizio

N1 - Funding Information: We thank A. Longhi and E. Zianni for technical assistance. We thank the Electron Microscopy Research Services, Faculty of Medical Sciences, Newcastle University. This work was supported by European Community FP7 Contract 238608—Symbad (to M.D.L. and C.M.), PRIN 2010–2011 (2010AHHP5H_002 to F.G.) and Cariplo Foundation Project 2013–0795 (to M.D.L. and A.A.G.) and Cariplo Foundation Project 2014-0660 (to F.G.).

PY - 2015/12/18

Y1 - 2015/12/18

N2 - NMDA receptor (NMDAR) composition and synaptic retention represent pivotal features in the physiology and pathology of excitatory synapses. Here, we identify Rabphilin 3A (Rph3A) as a new GluN2A subunit-binding partner. Rph3A is known as a synaptic vesicle-associated protein involved in the regulation of exo- and endocytosis processes at presynaptic sites. We find that Rph3A is enriched at dendritic spines. Protein-protein interaction assays reveals that Rph3A N-terminal domain interacts with GluN2A(1349-1389) as well as with PSD-95(PDZ3) domains, creating a ternary complex. Rph3A silencing in neurons reduces the surface localization of synaptic GluN2A and NMDAR currents. Moreover, perturbing GluN2A/Rph3A interaction with interfering peptides in organotypic slices or in vivo induces a decrease of the amplitude of NMDAR-mediated currents and GluN2A density at dendritic spines. In conclusion, Rph3A interacts with GluN2A and PSD-95 forming a complex that regulates NMDARs stabilization at postsynaptic membranes.

AB - NMDA receptor (NMDAR) composition and synaptic retention represent pivotal features in the physiology and pathology of excitatory synapses. Here, we identify Rabphilin 3A (Rph3A) as a new GluN2A subunit-binding partner. Rph3A is known as a synaptic vesicle-associated protein involved in the regulation of exo- and endocytosis processes at presynaptic sites. We find that Rph3A is enriched at dendritic spines. Protein-protein interaction assays reveals that Rph3A N-terminal domain interacts with GluN2A(1349-1389) as well as with PSD-95(PDZ3) domains, creating a ternary complex. Rph3A silencing in neurons reduces the surface localization of synaptic GluN2A and NMDAR currents. Moreover, perturbing GluN2A/Rph3A interaction with interfering peptides in organotypic slices or in vivo induces a decrease of the amplitude of NMDAR-mediated currents and GluN2A density at dendritic spines. In conclusion, Rph3A interacts with GluN2A and PSD-95 forming a complex that regulates NMDARs stabilization at postsynaptic membranes.

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Rabphilin 3A retains NMDA receptors at synaptic sites through interaction with GluN2A/PSD-95 complex

Abstract

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