Neuromuscular defects and breathing disorders in a new mouse model of spinal muscular atrophy

Magali Michaud; Thomas Arnoux; Serena Bielli; Estelle Durand; Yann Rotrou; Sibylle Jablonka; Fabrice Robert; Marc Giraudon-Paoli; Markus Riessland; Marie Geneviève Mattei; Emile Andriambeloson; Brunhilde Wirth; Michael Sendtner; Jorge Gallego; Rebecca M. Pruss; Thierry Bordet

doi:10.1016/j.nbd.2010.01.006

Neuromuscular defects and breathing disorders in a new mouse model of spinal muscular atrophy

Magali Michaud
, Thomas Arnoux
, Serena Bielli
, Estelle Durand
, Yann Rotrou
, Sibylle Jablonka
, Fabrice Robert
, Marc Giraudon-Paoli
, Markus Riessland
, Marie Geneviève Mattei
, Emile Andriambeloson
, Brunhilde Wirth
, Michael Sendtner
, Jorge Gallego
, Rebecca M. Pruss
, Thierry Bordet

Neurobiology and Behavior

Trophos
Institut national de la santé et de la recherche médicale
University of Würzburg
Aix-Marseille Université
Neurofit
University of Cologne

Research output: Contribution to journal › Article › peer-review

69 Scopus citations

Abstract

Spinal muscular atrophy (SMA) is caused by insufficient levels of the survival motor neuron (SMN) protein leading to muscle paralysis and respiratory failure. In mouse, introducing the human SMN2 gene partially rescues Smn^-/- embryonic lethality. However current models were either too severe or nearly unaffected precluding convenient drug testing for SMA. We report here new SMN2;Smn^-/- lines carrying one to four copies of the human SMN2 gene. Mice carrying three SMN2 copies exhibited an intermediate phenotype with delayed appearance of motor defects and developmental breathing disorders reminiscent of those found in severe SMA patients. Although normal at birth, at 7 days of age respiratory rate was decreased and apnea frequency was increased in SMA mice in parallel with the appearance of neuromuscular junction defects in the diaphragm. With median survival of 15 days and postnatal onset of neurodegeneration, these mice could be an important tool for evaluating new therapeutics.

Original language	English
Pages (from-to)	125-135
Number of pages	11
Journal	Neurobiology of Disease
Volume	38
Issue number	1
DOIs	https://doi.org/10.1016/j.nbd.2010.01.006
State	Published - Apr 2010

Keywords

Behavior
Breathing disorders
Development
Motor neuron disease
Mouse model
Neurodegeneration
Neuromuscular junction
Spinal muscular atrophy
Survival motor neuron gene

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10.1016/j.nbd.2010.01.006

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Michaud, M., Arnoux, T., Bielli, S., Durand, E., Rotrou, Y., Jablonka, S., Robert, F., Giraudon-Paoli, M., Riessland, M., Mattei, M. G., Andriambeloson, E., Wirth, B., Sendtner, M., Gallego, J., Pruss, R. M., & Bordet, T. (2010). Neuromuscular defects and breathing disorders in a new mouse model of spinal muscular atrophy. Neurobiology of Disease, 38(1), 125-135. https://doi.org/10.1016/j.nbd.2010.01.006

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title = "Neuromuscular defects and breathing disorders in a new mouse model of spinal muscular atrophy",

abstract = "Spinal muscular atrophy (SMA) is caused by insufficient levels of the survival motor neuron (SMN) protein leading to muscle paralysis and respiratory failure. In mouse, introducing the human SMN2 gene partially rescues Smn-/- embryonic lethality. However current models were either too severe or nearly unaffected precluding convenient drug testing for SMA. We report here new SMN2;Smn-/- lines carrying one to four copies of the human SMN2 gene. Mice carrying three SMN2 copies exhibited an intermediate phenotype with delayed appearance of motor defects and developmental breathing disorders reminiscent of those found in severe SMA patients. Although normal at birth, at 7 days of age respiratory rate was decreased and apnea frequency was increased in SMA mice in parallel with the appearance of neuromuscular junction defects in the diaphragm. With median survival of 15 days and postnatal onset of neurodegeneration, these mice could be an important tool for evaluating new therapeutics.",

keywords = "Behavior, Breathing disorders, Development, Motor neuron disease, Mouse model, Neurodegeneration, Neuromuscular junction, Spinal muscular atrophy, Survival motor neuron gene",

author = "Magali Michaud and Thomas Arnoux and Serena Bielli and Estelle Durand and Yann Rotrou and Sibylle Jablonka and Fabrice Robert and Marc Giraudon-Paoli and Markus Riessland and Mattei, \{Marie Genevi{\`e}ve\} and Emile Andriambeloson and Brunhilde Wirth and Michael Sendtner and Jorge Gallego and Pruss, \{Rebecca M.\} and Thierry Bordet",

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Michaud, M, Arnoux, T, Bielli, S, Durand, E, Rotrou, Y, Jablonka, S, Robert, F, Giraudon-Paoli, M, Riessland, M, Mattei, MG, Andriambeloson, E, Wirth, B, Sendtner, M, Gallego, J, Pruss, RM & Bordet, T 2010, 'Neuromuscular defects and breathing disorders in a new mouse model of spinal muscular atrophy', Neurobiology of Disease, vol. 38, no. 1, pp. 125-135. https://doi.org/10.1016/j.nbd.2010.01.006

TY - JOUR

T1 - Neuromuscular defects and breathing disorders in a new mouse model of spinal muscular atrophy

AU - Michaud, Magali

AU - Arnoux, Thomas

AU - Bielli, Serena

AU - Durand, Estelle

AU - Rotrou, Yann

AU - Jablonka, Sibylle

AU - Robert, Fabrice

AU - Giraudon-Paoli, Marc

AU - Riessland, Markus

AU - Mattei, Marie Geneviève

AU - Andriambeloson, Emile

AU - Wirth, Brunhilde

AU - Sendtner, Michael

AU - Gallego, Jorge

AU - Pruss, Rebecca M.

AU - Bordet, Thierry

PY - 2010/4

Y1 - 2010/4

N2 - Spinal muscular atrophy (SMA) is caused by insufficient levels of the survival motor neuron (SMN) protein leading to muscle paralysis and respiratory failure. In mouse, introducing the human SMN2 gene partially rescues Smn-/- embryonic lethality. However current models were either too severe or nearly unaffected precluding convenient drug testing for SMA. We report here new SMN2;Smn-/- lines carrying one to four copies of the human SMN2 gene. Mice carrying three SMN2 copies exhibited an intermediate phenotype with delayed appearance of motor defects and developmental breathing disorders reminiscent of those found in severe SMA patients. Although normal at birth, at 7 days of age respiratory rate was decreased and apnea frequency was increased in SMA mice in parallel with the appearance of neuromuscular junction defects in the diaphragm. With median survival of 15 days and postnatal onset of neurodegeneration, these mice could be an important tool for evaluating new therapeutics.

AB - Spinal muscular atrophy (SMA) is caused by insufficient levels of the survival motor neuron (SMN) protein leading to muscle paralysis and respiratory failure. In mouse, introducing the human SMN2 gene partially rescues Smn-/- embryonic lethality. However current models were either too severe or nearly unaffected precluding convenient drug testing for SMA. We report here new SMN2;Smn-/- lines carrying one to four copies of the human SMN2 gene. Mice carrying three SMN2 copies exhibited an intermediate phenotype with delayed appearance of motor defects and developmental breathing disorders reminiscent of those found in severe SMA patients. Although normal at birth, at 7 days of age respiratory rate was decreased and apnea frequency was increased in SMA mice in parallel with the appearance of neuromuscular junction defects in the diaphragm. With median survival of 15 days and postnatal onset of neurodegeneration, these mice could be an important tool for evaluating new therapeutics.

KW - Behavior

KW - Breathing disorders

KW - Development

KW - Motor neuron disease

KW - Mouse model

KW - Neurodegeneration

KW - Neuromuscular junction

KW - Spinal muscular atrophy

KW - Survival motor neuron gene

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SP - 125

EP - 135

JO - Neurobiology of Disease

JF - Neurobiology of Disease

IS - 1

ER -

Neuromuscular defects and breathing disorders in a new mouse model of spinal muscular atrophy

Abstract

Keywords

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