Functional specialisation and coordination of myonuclei

Korb, Amaury; Tajbakhsh, Shahragim; Comai, Glenda E.

doi:10.1111/brv.13063

Cited by 2 publications

References 337 publications

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The expanding roles of myonuclei in adult skeletal muscle health and function

Borowik,

Murach,

Miller

2024

Biochemical Society Transactions

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Skeletal muscle cells (myofibers) require multiple nuclei to support a cytoplasmic volume that is larger than other mononuclear cell types. It is dogmatic that mammalian resident myonuclei rely on stem cells (specifically satellite cells) for adding new DNA to muscle fibers to facilitate cytoplasmic expansion that occurs during muscle growth. In this review, we discuss the relationship between cell size and supporting genetic material. We present evidence that myonuclei may undergo DNA synthesis as a strategy to increase genetic material in myofibers independent from satellite cells. We then describe the details of our experiments that demonstrated that mammalian myonuclei can replicate DNA in vivo. Finally, we present our findings in the context of expanding knowledge about myonuclear heterogeneity, myonuclear mobility and shape. We also address why myonuclear replication is potentially important and provide future directions for remaining unknowns. Myonuclear DNA replication, coupled with new discoveries about myonuclear transcription, morphology, and behavior in response to stress, may provide opportunities to leverage previously unappreciated skeletal muscle biological processes for therapeutic targets that support muscle mass, function, and plasticity.

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The expanding roles of myonuclei in adult skeletal muscle health and function

Borowik,

Murach,

Miller

2024

Biochemical Society Transactions

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Quantifying anti-DUX4 therapy for facioscapulohumeral muscular dystrophy

Cowley,

Zammit,

Banerji

2024

Preprint

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Facioscapulohumeral muscular dystrophy (FSHD) is an inherited skeletal myopathy with no cure. Expression of the myotoxic transcription factor double homeobox 4 (DUX4) is believed to underlie FSHD pathogenesis and many proposed therapies target DUX4 generation or function. Which of these therapies will be the most effective is unclear. Here, by constructing a Markov-chain-based mathematical model of DUX4-mediated myotoxity in FSHD, we interrogate various anti-DUX4 FSHD therapeutic strategies. We derive an analytical function for myonuclear life expectancy in terms of the parameters ofDUX4expression. In a biologically relevant parameter regime, therapeutically decreasing the DUX4 protein diffusion rate is, surprisingly, predicted to be more effective at increasing myonuclear life expectancy than reducing the rate of myonuclear apoptosis caused by the expression of DUX4-target genes. We find that targeting elements ofDUX4transcription/translation, such as mRNA stability via siRNA therapy, has a limited predicted impact on DUX4-meditated toxicity when performed in isolation. However, our model predicts a superadditive effect from combining transcription/translation targeting strategies with approaches that minimise DUX4 diffusion-mediated import into neighbouring myonuclei. Importantly, we provide a computational tool to test and inform therapeutic designs, enabling pre-clinical screening of FSHD treatment approaches.

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Functional specialisation and coordination of myonuclei

Cited by 2 publications

References 337 publications

The expanding roles of myonuclei in adult skeletal muscle health and function

The expanding roles of myonuclei in adult skeletal muscle health and function

Quantifying anti-DUX4 therapy for facioscapulohumeral muscular dystrophy

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