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Increased myofiber remodelling and NFATc1-myonuclear translocation in rat postural skeletal muscle after experimental vestibular deafferentation

Article type: Research Article

Authors: Luxa, Nicholasa; b | Salanova, Michelea; b | Schiffl, Gudruna; b | Gutsmann, Martinaa; b | Besnard, Stéphanec | Denise, Pierrec | Clarke, Andrewd | Blottner, Dietera; b; *

Affiliations: [a] Department of Vegetative Anatomy, Neuromuscular Group, Charité – University Medicine Berlin, Berlin, Germany | [b] Center for Space Medicine Berlin (ZWMB), Berlin, Germany | [c] Physiology Lab, UCBN, UFR Medicine, Caen Cedex, France | [d] CBF, ENT Department, Charité – University Medicine Berlin, Berlin, Germany

Correspondence: [*] Corresponding author: Dieter Blottner, Charité – University Medicine Berlin, Department of Vegetative Anatomy, Neuromuscular Group, Philippstrasse 12, D-10115 Berlin, Germany. Tel.: +49 30 450 528 412; Fax: +49 30 450 528 954; E-mail: [email protected]

Keywords: Labyrinthectomy (vestibular lesion), skeletal muscle soleus, NFATc1 (NFAT2)

DOI: 10.3233/VES-130499

Journal: Journal of Vestibular Research, vol. 23, no. 4-5, pp. 187-193, 2013

Published: 1 November 2013
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Abstract

Background:

The vestibular system undergoes considerable modification during spaceflight [5]. This is paralleled by microgravity-induced muscle atrophy [6]. However, the possibility of vestibulo-autonomic regulatory mechanisms affecting skeletal muscle structure and function have not yet been addressed.

Objective:

We hypothesise that the vestibular system affects anti-gravitational skeletal muscle phenotype composition, size and the transcriptional factor called nuclear factor of activated T cells (NFATc1).

Methods:

In a laboratory study, we examined the morphological and histochemical properties including intramyocellular NFATc1 changes in slow-type soleus muscle of chemically labyrinthectomized rats (VLx; n=8) compared to a control group (Sham; n=6) after a period of one month.

Results and conclusion:

Neurochemical vestibular deafferentation resulted in smaller myofibre sizes, altered myofibre phenotype composition, high yields of hybrid fibre formation, and reduced myonuclear NFATc1 accumulation as signs of slow-type myofibre atrophy, myofibre type remodelling, and altered nuclear transcriptional activity in the postural soleus muscle of rats. We propose that vestibulo-autonomic modification of skeletal muscles occurs during prolonged microgravity. Our findings are likely to have implications for vestibular rehabilitation in clinical settings.

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