Prolonged voluntary wheel running reveals unique adaptations in mdx mice treated with microdystrophin constructs ± the nNOS-binding site

Hamm, Shelby E.; Yuan, Constance; McQueen, Liam W.; Wallace, Marita A.; Zhang, H.; Arora, Arushi; Garafalo, A. M.; McMillan, Ryan P.; Lawlor, Michael W.; Prom, Mariah J.; Ott, E. M.; Yan, Jun; Addington, Adele K.; Morris, Carl; Gonzalez, J. P.; Grange, Robert W.

doi:10.3389/fphys.2023.1166206

Front. Physiol.

2023

DOI: 10.3389/fphys.2023.1166206

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Prolonged voluntary wheel running reveals unique adaptations in mdx mice treated with microdystrophin constructs ± the nNOS-binding site

Shelby E. Hamm

Constance Yuan

Liam W. McQueen

et al.

Abstract: We tested the effects of prolonged voluntary wheel running on the muscle function of mdx mice treated with one of two different microdystrophin constructs. At 7 weeks of age mdx mice were injected with a single dose of AAV9-CK8-microdystrophin with (gene therapy 1, GT1) or without (gene therapy 2, GT2) the nNOS-binding domain and were assigned to one of four gene therapy treated groups: mdxRGT1 (run, GT1), mdxGT1 (no run, GT1), or mdxRGT2 (run,GT2), mdxGT2 (no run, GT2). There were two mdx untreated groups inj… Show more

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BREATHE DMD: boosting respiratory efficacy after therapeutic hypoxic episodes in Duchenne muscular dystrophy

Ó Murchú,

O'Halloran

2024

The Journal of Physiology

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Duchenne muscular dystrophy (DMD) is a fatal genetic neuromuscular disorder, characterised by progressive decline in skeletal muscle function due to the secondary consequences of dystrophin deficiency. Weakness extends to the respiratory musculature, and cardiorespiratory failure is the leading cause of death in men with DMD. Intermittent hypoxia has emerged as a potential therapy to counteract ventilatory insufficiency by eliciting long‐term facilitation of breathing. Mechanisms of sensory and motor facilitation of breathing have been well delineated in animal models. Various paradigms of intermittent hypoxia have been designed and implemented in human trials culminating in clinical trials in people with spinal cord injury and amyotrophic lateral sclerosis. Application of therapeutic intermittent hypoxia to DMD is considered together with discussion of the potential barriers to progression owing to the complexity of this devastating disease. Notwithstanding the considerable challenges and potential pitfalls of intermittent hypoxia‐based therapies for DMD, we suggest it is incumbent on the research community to explore the potential benefits in pre‐clinical models. Intermittent hypoxia paradigms should be implemented to explore the proclivity to express respiratory plasticity with the longer‐term aim of preserving and potentiating ventilation in pre‐clinical models and people with DMD. image

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BREATHE DMD: boosting respiratory efficacy after therapeutic hypoxic episodes in Duchenne muscular dystrophy

Ó Murchú,

O'Halloran

2024

The Journal of Physiology

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show abstract

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Prolonged voluntary wheel running reveals unique adaptations in mdx mice treated with microdystrophin constructs ± the nNOS-binding site

Cited by 1 publication

References 36 publications

BREATHE DMD: boosting respiratory efficacy after therapeutic hypoxic episodes in Duchenne muscular dystrophy

BREATHE DMD: boosting respiratory efficacy after therapeutic hypoxic episodes in Duchenne muscular dystrophy

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