Neuron‐derived extracellular vesicles contain synaptic proteins, promote spine formation, activate TrkB‐mediated signalling and preserve neuronal complexity

Julia Solana‐Balaguer; Genís Campoy‐Campos; Núria Martín‐Flores; Leticia Pérez‐Sisqués; Laia Sitjà‐Roqueta; Melike Kucukerden; Ana Gámez‐Valero; Albert Coll‐Manzano; Eulàlia Martí; Esther Pérez‐Navarro; Jordi Alberch; Jordi Soriano; Mercè Masana; Cristina Malagelada

doi:10.1002/jev2.12355

Journal of Extracellular Vesicles (Sep 2023)

Neuron‐derived extracellular vesicles contain synaptic proteins, promote spine formation, activate TrkB‐mediated signalling and preserve neuronal complexity

Julia Solana‐Balaguer,
Genís Campoy‐Campos,
Núria Martín‐Flores,
Leticia Pérez‐Sisqués,
Laia Sitjà‐Roqueta,
Melike Kucukerden,
Ana Gámez‐Valero,
Albert Coll‐Manzano,
Eulàlia Martí,
Esther Pérez‐Navarro,
Jordi Alberch,
Jordi Soriano,
Mercè Masana,
Cristina Malagelada

Affiliations

Julia Solana‐Balaguer: Departament de Biomedicina, Institut de Neurociències (UBneuro) Universitat de Barcelona BarcelonaSpain
Genís Campoy‐Campos: Departament de Biomedicina, Institut de Neurociències (UBneuro) Universitat de Barcelona BarcelonaSpain
Núria Martín‐Flores: Departament de Biomedicina, Institut de Neurociències (UBneuro) Universitat de Barcelona BarcelonaSpain
Leticia Pérez‐Sisqués: Departament de Biomedicina, Institut de Neurociències (UBneuro) Universitat de Barcelona BarcelonaSpain
Laia Sitjà‐Roqueta: Departament de Biomedicina, Institut de Neurociències (UBneuro) Universitat de Barcelona BarcelonaSpain
Melike Kucukerden: Departament de Biomedicina, Institut de Neurociències (UBneuro) Universitat de Barcelona BarcelonaSpain
Ana Gámez‐Valero: Departament de Biomedicina, Institut de Neurociències (UBneuro) Universitat de Barcelona BarcelonaSpain
Albert Coll‐Manzano: Departament de Biomedicina, Institut de Neurociències (UBneuro) Universitat de Barcelona BarcelonaSpain
Eulàlia Martí: Departament de Biomedicina, Institut de Neurociències (UBneuro) Universitat de Barcelona BarcelonaSpain
Esther Pérez‐Navarro: Departament de Biomedicina, Institut de Neurociències (UBneuro) Universitat de Barcelona BarcelonaSpain
Jordi Alberch: Departament de Biomedicina, Institut de Neurociències (UBneuro) Universitat de Barcelona BarcelonaSpain
Jordi Soriano: Departament de Física de la Matèria Condensada Universitat de Barcelona BarcelonaSpain
Mercè Masana: Departament de Biomedicina, Institut de Neurociències (UBneuro) Universitat de Barcelona BarcelonaSpain
Cristina Malagelada: Departament de Biomedicina, Institut de Neurociències (UBneuro) Universitat de Barcelona BarcelonaSpain

DOI: https://doi.org/10.1002/jev2.12355
Journal volume & issue: Vol. 12, no. 9
pp. n/a – n/a

Abstract

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Abstract Extracellular vesicles (EVs) play an important role in intercellular communication as carriers of signalling molecules such as bioactive miRNAs, proteins and lipids. EVs are key players in the functioning of the central nervous system (CNS) by influencing synaptic events and modulating recipient neurons. However, the specific role of neuron‐to‐neuron communication via EVs is still not well understood. Here, we provide evidence that primary neurons uptake neuron‐derived EVs in the soma, dendrites, and even in the dendritic spines, and carry synaptic proteins. Neuron‐derived EVs increased spine density and promoted the phosphorylation of Akt and ribosomal protein S6 (RPS6), via TrkB‐signalling, without impairing the neuronal network activity. Strikingly, EVs exerted a trophic effect on challenged nutrient‐deprived neurons. Altogether, our results place EVs in the spotlight for synaptic plasticity modulation as well as a possible therapeutic tool to fight neurodegeneration.

Published in Journal of Extracellular Vesicles

ISSN: 2001-3078 (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Science: Biology (General): Cytology
Website: https://onlinelibrary.wiley.com/journal/20013078

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