A MicroRNA-129-5p/Rbfox Crosstalk Coordinates Homeostatic Downscaling of Excitatory Synapses

Overview

Journal EMBO J

Specialties Biotechnology
Molecular Biology

Date 2017 May 11

PMID 28487411

Citations 54

Authors

Marek Rajman

Franziska Metge

Roberto Fiore

Sharof Khudayberdiev

Ayla Aksoy-Aksel

Silvia Bicker

Cristina Ruedell Reschke

Rana Raoof

Gary P Brennan

Norman Delanty

Michael A Farrell

Donncha F OBrien

Sebastian Bauer

Braxton Norwood

Morten T Veno

Marcus Kruger

Thomas Braun

Jorgen Kjems

Felix Rosenow

David C Henshall

Christoph Dieterich

Gerhard Schratt

Affiliations

Soon will be listed here.

Abstract

Synaptic downscaling is a homeostatic mechanism that allows neurons to reduce firing rates during chronically elevated network activity. Although synaptic downscaling is important in neural circuit development and epilepsy, the underlying mechanisms are poorly described. We performed small RNA profiling in picrotoxin (PTX)-treated hippocampal neurons, a model of synaptic downscaling. Thereby, we identified eight microRNAs (miRNAs) that were increased in response to PTX, including miR-129-5p, whose inhibition blocked synaptic downscaling and reduced epileptic seizure severity Using transcriptome, proteome, and bioinformatic analysis, we identified the calcium pump Atp2b4 and doublecortin (Dcx) as miR-129-5p targets. Restoring Atp2b4 and Dcx expression was sufficient to prevent synaptic downscaling in PTX-treated neurons. Furthermore, we characterized a functional crosstalk between miR-129-5p and the RNA-binding protein (RBP) Rbfox1. In the absence of PTX, Rbfox1 promoted the expression of Atp2b4 and Dcx. Upon PTX treatment, Rbfox1 expression was downregulated by miR-129-5p, thereby allowing the repression of Atp2b4 and Dcx. We therefore identified a novel activity-dependent miRNA/RBP crosstalk during synaptic scaling, with potential implications for neural network homeostasis and epileptogenesis.

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