Spinal Motoneuron TMEM16F Acts at C-boutons to Modulate Motor Resistance and Contributes to ALS Pathogenesis

Overview

Journal Cell Rep

Publisher Cell Press

Specialties Biology
Cell Biology
Molecular Biology

Date 2020 Feb 27

PMID 32101737

Citations 15

Authors

Claire Soulard

Celine Salsac

Kevin Mouzat

Cecile Hilaire

Julien Roussel

Alexandre Mezghrani

Serge Lumbroso

Cedric Raoul

Frederique Scamps

Affiliations

Soon will be listed here.

Abstract

Neuronal Ca entry elicited by electrical activity contributes to information coding via activation of K and Cl channels. While Ca-dependent K channels have been extensively studied, the molecular identity and role of Ca-activated Cl channels (CaCCs) remain unclear. Here, we demonstrate that TMEM16F governs a Ca-activated Cl conductance in spinal motoneurons. We show that TMEM16F is expressed in synaptic clusters facing pre-synaptic cholinergic C-boutons in α-motoneurons of the spinal cord. Mice with targeted exon deletion in Tmem16f display decreased motor performance under high-demanding tasks attributable to an increase in the recruitment threshold of fast α-motoneurons. Remarkably, loss of TMEM16F function in a mouse model of amyotrophic lateral sclerosis (ALS) significantly reduces expression of an activity-dependent early stress marker and muscle denervation, delays disease onset, and preserves muscular strength only in male ALS mice. Thus, TMEM16F controls motoneuron excitability and impacts motor resistance as well as motor deterioration in ALS.

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