Long‐term exercise‐specific neuroprotection in spinal muscular atrophy‐like mice

Chali, Farah; Desseille, Céline; Houdebine, Léo; Benoit, Évelyne; Rouquet, Thaïs; Bariohay, Bruno; Lopes, Philippe; Branchu, Julien; Gaspera, Bruno Della; Pariset, Claude; Chanoine, Christophe; Charbonnier, Frédéric; Biondi, Olivier

doi:10.1113/jp271361

Cited by 27 publications

(42 citation statements)

References 48 publications

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“…Furthermore, our data demonstrate that physiological AMPK stimulation is associated with increased SMN expression (r = 0.45, R 2 = 0.20, P < 0.05; data not shown), which extends an earlier proof-of-concept report that observed some benefits to pharmacological AMPK activation in severe SMA-like mice (Cerveró et al 2016). Previous studies present conflicting results regarding the effects of chronic exercise on SMN expression in SMA-like mice (Grondard et al 2005;Biondi et al 2015;Chali et al 2016), which are likely due, at least in part, to the disparate SMA murine models utilized, sex and age of the animals, tissues analysed, and training variables selected. Nevertheless, this important pre-clinical work reveals that significant cellular and physiological benefits, including prolonged lifespan, are likely to be gleaned by both SMN-dependent and -independent mechanisms.…”

Section: Discussionsupporting

confidence: 85%

“…; Chali et al . ), as well as by others working with SMA participants (McCartney et al . ; Madsen et al .…”

Section: Discussionmentioning

confidence: 86%

“…; Chali et al . ), which are likely due, at least in part, to the disparate SMA murine models utilized, sex and age of the animals, tissues analysed, and training variables selected. Nevertheless, this important pre‐clinical work reveals that significant cellular and physiological benefits, including prolonged lifespan, are likely to be gleaned by both SMN‐dependent and ‐independent mechanisms.…”

Section: Discussionmentioning

confidence: 99%

“…This is clearly a major weakness of using an acute exercise design. Thus, as we acknowledged recently (Ng et al 2018), future research into the area of chronic physical activity in SMA certainly requires additional studies to build on the solid foundation established by Chabonnier in the pre-clinical context (Grondard et al 2005;Biondi et al 2008;Chali et al 2016), as well as by others working with SMA participants (McCartney et al 1988;Madsen et al 2014;Lewelt et al 2015).…”

Section: Limitationsmentioning

confidence: 95%

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Mechanisms of exercise‐induced survival motor neuron expression in the skeletal muscle of spinal muscular atrophy‐like mice

Mikhail

Ljubicic

2019

The Journal of Physiology

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Key points Spinal muscular atrophy (SMA) is a health‐ and life‐limiting neuromuscular disorder caused by a deficiency in survival motor neuron (SMN) protein. While historically considered a motor neuron disease, current understanding of SMA emphasizes its systemic nature, which requires addressing affected peripheral tissues such as skeletal muscle in particular. Chronic physical activity is beneficial for SMA patients, but the cellular and molecular mechanisms of exercise biology are largely undefined in SMA. After a single bout of exercise, canonical responses such as skeletal muscle AMP‐activated protein kinase (AMPK), p38 mitogen‐activated protein kinase (p38) and peroxisome proliferator‐activated receptor γ coactivator 1α (PGC‐1α) activation were preserved in SMA‐like Smn2B/− animals. Furthermore, molecules involved in SMN transcription were also altered following physical activity. Collectively, these changes were coincident with an increase in full‐length SMN transcription and corrective SMN pre‐mRNA splicing. This study advances understanding of the exercise biology of SMA and highlights the AMPK–p38–PGC‐1α axis as a potential regulator of SMN expression in muscle. Abstract Chronic physical activity is safe and effective in spinal muscular atrophy (SMA) patients, but the underlying cellular events that drive physiological adaptations are undefined. We examined the effects of a single bout of exercise on molecular mechanisms associated with adaptive remodelling in the skeletal muscle of Smn2B/− SMA‐like mice. Skeletal muscles were collected from healthy Smn2B/+ mice and Smn2B/− littermates at pre‐ (postnatal day (P) 9), early‐ (P13) and late‐ (P21) symptomatic stages to characterize SMA disease progression. Muscles were also collected from Smn2B/− animals exercised to fatigue on a motorized treadmill. Intracellular signalling and gene expression were examined using western blotting, confocal immunofluorescence microscopy, real‐time quantitative PCR and endpoint PCR assays. Basal skeletal muscle AMP‐activated protein kinase (AMPK) and p38 mitogen‐activated protein kinase (p38) expression and activity were not affected by SMA‐like conditions. Canonical exercise responses such as AMPK, p38 and peroxisome proliferator‐activated receptor γ coactivator‐1α (PGC‐1α) activation were observed following a bout of exercise in Smn2B/− animals. Furthermore, molecules involved in survival motor neuron (SMN) transcription, including protein kinase B (AKT) and extracellular signal‐regulated kinases (ERK)/ETS‐like gene 1 (ELK1), were altered following physical activity. Acute exercise was also able to mitigate aberrant proteolytic signalling in the skeletal muscle of Smn2B/− mice. Collectively, these changes were coincident with an exercise‐evoked increase in full‐length SMN mRNA expression. This study advances our understanding of the exercise biology of SMA and highlights the AMPK–p38–PGC‐1α axis as a potential regulator of SMN expression alongside AKT and ERK/ELK1 signalling.

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Section: Discussionsupporting

confidence: 85%

“…; Chali et al . ), as well as by others working with SMA participants (McCartney et al . ; Madsen et al .…”

Section: Discussionmentioning

confidence: 86%

Section: Discussionmentioning

confidence: 99%

Section: Limitationsmentioning

confidence: 95%

See 2 more Smart Citations

Mechanisms of exercise‐induced survival motor neuron expression in the skeletal muscle of spinal muscular atrophy‐like mice

Mikhail

Ljubicic

2019

The Journal of Physiology

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“…Physical exercise has been investigated to promote neuronal plasticity and enhance resistance to neurodegeneration in the brain, spinal cord and cardiovascular system in both humans and experimental animals (Michelini & Stern 2009;Alvarez-Mejia et al 2015;Sandrow-Feinberg & Houle 2015;Chali et al 2016;Huttenrauch et al 2016;Li et al 2016;Otsuka et al 2016). Limited but consistent evidence of neuroprotection from exercise in animal models has been found in various retinal degenerative diseases, although the type and protocol of exercise were inconsistent and not comparable in these studies.…”

Section: Neuroprotection Of Physical Exercise In Glaucomamentioning

confidence: 99%

Physical exercise and glaucoma: a review on the roles of physical exercise on intraocular pressure control, ocular blood flow regulation, neuroprotection and glaucoma‐related mental health

Zhu

Lai

Choy

et al. 2018

Acta Ophthalmologica

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The benefits of physical exercise on health and well-being have been studied in a wide range of systemic and ocular diseases, including glaucoma, a progressive optic neuropathy characterized by accelerated apoptosis of retinal ganglion cells (RGCs). Elevated intraocular pressure (IOP) and insufficient ocular perfusion have been postulated to be the two main theories in glaucoma development and progression. The effects of exercise in these two aspects have been demonstrated by numerous researches. A review in 2009 focusing on these two theories concluded that exercise results in transient IOP reduction but an inconsistent elevation in ocular perfusion. However, the majority of the studies had been conducted in healthy subjects. Over the past decade, technological advancement has brought forth new and more detailed evidence regarding the effects of exercise. Moreover, the neuroprotective effect of exercise by upregulation of neurotrophin and enhancement of mitochondrial function has been a focus of interest. Apart from visual impairment, the mental health issues in patients with glaucoma, which include anxiety and depression, should also be addressed. In this review, we mainly focus on publications from the recent years, so as to provide a comprehensive review on the impact of physical exercise on IOP, ocular perfusion, neuroprotection and mental health in patients with glaucoma.

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Emerging therapies and challenges in spinal muscular atrophy

Farrar

Park

Vucic

et al. 2017

Annals of Neurology

173

167

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Spinal muscular atrophy (SMA) is a hereditary neurodegenerative disease with severity ranging from progressive infantile paralysis and premature death (type I) to limited motor neuron loss and normal life expectancy (type IV). Without disease‐modifying therapies, the impact is profound for patients and their families. Improved understanding of the molecular basis of SMA, disease pathogenesis, natural history, and recognition of the impact of standardized care on outcomes has yielded progress toward the development of novel therapeutic strategies and are summarized. Therapeutic strategies in the pipeline are appraised, ranging from SMN1 gene replacement to modulation of SMN2 encoded transcripts, to neuroprotection, to an expanding repertoire of peripheral targets, including muscle. With the advent of preliminary trial data, it can be reasonably anticipated that the SMA treatment landscape will transform significantly. Advancement in presymptomatic diagnosis and screening programs will be critical, with pilot newborn screening studies underway to facilitate preclinical diagnosis. The development of disease‐modifying therapies will necessitate monitoring programs to determine the long‐term impact, careful evaluation of combined treatments, and further acceleration of improvements in supportive care. In advance of upcoming clinical trial results, we consider the challenges and controversies related to the implementation of novel therapies for all patients and set the scene as the field prepares to enter an era of novel therapies. Ann Neurol 2017;81:355–368

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Long‐term exercise‐specific neuroprotection in spinal muscular atrophy‐like mice

Cited by 27 publications

References 48 publications

Mechanisms of exercise‐induced survival motor neuron expression in the skeletal muscle of spinal muscular atrophy‐like mice

Mechanisms of exercise‐induced survival motor neuron expression in the skeletal muscle of spinal muscular atrophy‐like mice

Physical exercise and glaucoma: a review on the roles of physical exercise on intraocular pressure control, ocular blood flow regulation, neuroprotection and glaucoma‐related mental health

Emerging therapies and challenges in spinal muscular atrophy

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