A Role for mir-26a in Stress: A Potential sEV Biomarker and Modulator of Excitatory Neurotransmission

A Role for mir-26a in Stress: A Potential sEV Biomarker and Modulator of Excitatory Neurotransmission

Stress is a widespread problem in today’s societies, having important consequences on brain function. Among the plethora of mechanisms involved in the stress response at the molecular level, the role of microRNAs (miRNAs) is beginning to be recognized. The control of gene expression by these noncodi...

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Main Authors: Carlos Andrés Lafourcade, Anllely Fernández, Juan Pablo Ramírez, Katherine Corvalán, Miguel Ángel Carrasco, Andrés Iturriaga, Luis Federico Bátiz, Alejandro Luarte, Ursula Wyneken
Format: Article
Language:English
Published: MDPI AG 2020-06-01
Series:Cells
Subjects:
miRNAs
hippocampal neurons
extracellular vesicles
stress
synapses
Online Access:https://www.mdpi.com/2073-4409/9/6/1364
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spelling doaj-5fb3117f72014a62b91ffbd7cf9fe0cc2020-11-25T02:51:54ZengMDPI AGCells2073-44092020-06-0191364136410.3390/cells9061364A Role for mir-26a in Stress: A Potential sEV Biomarker and Modulator of Excitatory NeurotransmissionCarlos Andrés Lafourcade0Anllely Fernández1Juan Pablo Ramírez2Katherine Corvalán3Miguel Ángel Carrasco4Andrés Iturriaga5Luis Federico Bátiz6Alejandro Luarte7Ursula Wyneken8Centro de Investigación e Innovación Biomédica (CIIB), Facultad de Medicina, Universidad de los Andes, Santiago PC 7620001, ChileCentro de Investigación e Innovación Biomédica (CIIB), Facultad de Medicina, Universidad de los Andes, Santiago PC 7620001, ChileCentro de Investigación e Innovación Biomédica (CIIB), Facultad de Medicina, Universidad de los Andes, Santiago PC 7620001, ChileCentro de Investigación e Innovación Biomédica (CIIB), Facultad de Medicina, Universidad de los Andes, Santiago PC 7620001, ChileFacultad de Ingeniería y Ciencias Aplicadas, Universidad de los Andes, Santiago PC 7620001, ChileInstituto de Salud Poblacional, Facultad de Medicina, Universidad de Chile, Santiago PC 8380453, ChileCentro de Investigación e Innovación Biomédica (CIIB), Facultad de Medicina, Universidad de los Andes, Santiago PC 7620001, ChileBiomedical Neuroscience Institute, Universidad de Chile, Santiago PC 8380453, ChileCentro de Investigación e Innovación Biomédica (CIIB), Facultad de Medicina, Universidad de los Andes, Santiago PC 7620001, ChileStress is a widespread problem in today’s societies, having important consequences on brain function. Among the plethora of mechanisms involved in the stress response at the molecular level, the role of microRNAs (miRNAs) is beginning to be recognized. The control of gene expression by these noncoding RNAs makes them essential regulators of neuronal and synaptic physiology, and alterations in their levels have been associated with pathological conditions and mental disorders. In particular, the excitatory (i.e., glutamate-mediated) neurotransmission is importantly affected by stress. Here, we found that loss of miR-26a-5p (miR-26a henceforth) function in primary hippocampal neurons increased the frequency and amplitude of miniature excitatory currents, as well as the expression levels of the excitatory postsynaptic scaffolding protein PSD95. Incubation of primary hippocampal neurons with corticosterone downregulated miR-26a, an effect that mirrored our in vivo results, as miR-26a was downregulated in the hippocampus as well as in blood serum-derived small extracellular vesicles (sEVs) of rats exposed to two different stress paradigms by movement restriction (i.e., stress by restraint in cages or by complete immobilization in bags). Overall, these results suggest that miR-26a may be involved in the generalized stress response and that a stress-induced downregulation of miR-26a could have long-term effects on glutamate neurotransmission.https://www.mdpi.com/2073-4409/9/6/1364miRNAshippocampal neuronsextracellular vesiclesstresssynapses
collection DOAJ
language English
format Article
sources DOAJ
author Carlos Andrés Lafourcade
Anllely Fernández
Juan Pablo Ramírez
Katherine Corvalán
Miguel Ángel Carrasco
Andrés Iturriaga
Luis Federico Bátiz
Alejandro Luarte
Ursula Wyneken
spellingShingle Carlos Andrés Lafourcade
Anllely Fernández
Juan Pablo Ramírez
Katherine Corvalán
Miguel Ángel Carrasco
Andrés Iturriaga
Luis Federico Bátiz
Alejandro Luarte
Ursula Wyneken
A Role for mir-26a in Stress: A Potential sEV Biomarker and Modulator of Excitatory Neurotransmission
Cells
miRNAs
hippocampal neurons
extracellular vesicles
stress
synapses
author_facet Carlos Andrés Lafourcade
Anllely Fernández
Juan Pablo Ramírez
Katherine Corvalán
Miguel Ángel Carrasco
Andrés Iturriaga
Luis Federico Bátiz
Alejandro Luarte
Ursula Wyneken
author_sort Carlos Andrés Lafourcade
title A Role for mir-26a in Stress: A Potential sEV Biomarker and Modulator of Excitatory Neurotransmission
title_short A Role for mir-26a in Stress: A Potential sEV Biomarker and Modulator of Excitatory Neurotransmission
title_full A Role for mir-26a in Stress: A Potential sEV Biomarker and Modulator of Excitatory Neurotransmission
title_fullStr A Role for mir-26a in Stress: A Potential sEV Biomarker and Modulator of Excitatory Neurotransmission
title_full_unstemmed A Role for mir-26a in Stress: A Potential sEV Biomarker and Modulator of Excitatory Neurotransmission
title_sort role for mir-26a in stress: a potential sev biomarker and modulator of excitatory neurotransmission
publisher MDPI AG
series Cells
issn 2073-4409
publishDate 2020-06-01
description Stress is a widespread problem in today’s societies, having important consequences on brain function. Among the plethora of mechanisms involved in the stress response at the molecular level, the role of microRNAs (miRNAs) is beginning to be recognized. The control of gene expression by these noncoding RNAs makes them essential regulators of neuronal and synaptic physiology, and alterations in their levels have been associated with pathological conditions and mental disorders. In particular, the excitatory (i.e., glutamate-mediated) neurotransmission is importantly affected by stress. Here, we found that loss of miR-26a-5p (miR-26a henceforth) function in primary hippocampal neurons increased the frequency and amplitude of miniature excitatory currents, as well as the expression levels of the excitatory postsynaptic scaffolding protein PSD95. Incubation of primary hippocampal neurons with corticosterone downregulated miR-26a, an effect that mirrored our in vivo results, as miR-26a was downregulated in the hippocampus as well as in blood serum-derived small extracellular vesicles (sEVs) of rats exposed to two different stress paradigms by movement restriction (i.e., stress by restraint in cages or by complete immobilization in bags). Overall, these results suggest that miR-26a may be involved in the generalized stress response and that a stress-induced downregulation of miR-26a could have long-term effects on glutamate neurotransmission.
topic miRNAs
hippocampal neurons
extracellular vesicles
stress
synapses
url https://www.mdpi.com/2073-4409/9/6/1364
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