Nuclear numbers in syncytial muscle fibers promote size but limit the development of larger myonuclear domains

Alyssa A.W. Cramer; Vikram Prasad; Einar Eftestøl; Taejeong Song; Kenth Arne Hansson; Hannah F. Dugdale; Sakthivel Sadayappan; Julien Ochala; Kristian Gundersen; Douglas P. Millay

doi:10.1038/s41467-020-20058-7

Nuclear numbers in syncytial muscle fibers promote size but limit the development of larger myonuclear domains

Alyssa A.W. Cramer, Vikram Prasad, Einar Eftestøl, Taejeong Song, Kenth Arne Hansson, Hannah F. Dugdale, Sakthivel Sadayappan, Julien Ochala, Kristian Gundersen, Douglas P. Millay^*

^*Corresponding author for this work

Exercise and Muscle

Research output: Contribution to journal › Journal article › Research › peer-review

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Abstract

Mammalian cells exhibit remarkable diversity in cell size, but the factors that regulate establishment and maintenance of these sizes remain poorly understood. This is especially true for skeletal muscle, comprised of syncytial myofibers that each accrue hundreds of nuclei during development. Here, we directly explore the assumed causal relationship between multinucleation and establishment of normal size through titration of myonuclear numbers during mouse neonatal development. Three independent mouse models, where myonuclear numbers were reduced by 75, 55, or 25%, led to the discovery that myonuclei possess a reserve capacity to support larger functional cytoplasmic volumes in developing myofibers. Surprisingly, the results revealed an inverse relationship between nuclei numbers and reserve capacity. We propose that as myonuclear numbers increase, the range of transcriptional return on a per nuclear basis in myofibers diminishes, which accounts for both the absolute reliance developing myofibers have on nuclear accrual to establish size, and the limits of adaptability in adult skeletal muscle.

Original language	English
Article number	6287
Journal	Nature Communications
Volume	11
Issue number	1
Number of pages	14
ISSN	2041-1723
DOIs	https://doi.org/10.1038/s41467-020-20058-7
Publication status	Published - 2020

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Nuclear numbers in syncytial muscle fibersFinal published version, 3.69 MBLicence: CC BY

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Nuclear numbers in syncytial muscle fibers promote size but limit the development of larger myonuclear domains. / Cramer, Alyssa A.W.; Prasad, Vikram; Eftestøl, Einar; Song, Taejeong; Hansson, Kenth Arne; Dugdale, Hannah F.; Sadayappan, Sakthivel; Ochala, Julien; Gundersen, Kristian; Millay, Douglas P.

In: Nature Communications, Vol. 11, No. 1, 6287, 2020.

Research output: Contribution to journal › Journal article › Research › peer-review

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abstract = "Mammalian cells exhibit remarkable diversity in cell size, but the factors that regulate establishment and maintenance of these sizes remain poorly understood. This is especially true for skeletal muscle, comprised of syncytial myofibers that each accrue hundreds of nuclei during development. Here, we directly explore the assumed causal relationship between multinucleation and establishment of normal size through titration of myonuclear numbers during mouse neonatal development. Three independent mouse models, where myonuclear numbers were reduced by 75, 55, or 25%, led to the discovery that myonuclei possess a reserve capacity to support larger functional cytoplasmic volumes in developing myofibers. Surprisingly, the results revealed an inverse relationship between nuclei numbers and reserve capacity. We propose that as myonuclear numbers increase, the range of transcriptional return on a per nuclear basis in myofibers diminishes, which accounts for both the absolute reliance developing myofibers have on nuclear accrual to establish size, and the limits of adaptability in adult skeletal muscle.",

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AU - Prasad, Vikram

AU - Eftestøl, Einar

AU - Song, Taejeong

AU - Hansson, Kenth Arne

AU - Dugdale, Hannah F.

AU - Sadayappan, Sakthivel

AU - Ochala, Julien

AU - Gundersen, Kristian

AU - Millay, Douglas P.

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N2 - Mammalian cells exhibit remarkable diversity in cell size, but the factors that regulate establishment and maintenance of these sizes remain poorly understood. This is especially true for skeletal muscle, comprised of syncytial myofibers that each accrue hundreds of nuclei during development. Here, we directly explore the assumed causal relationship between multinucleation and establishment of normal size through titration of myonuclear numbers during mouse neonatal development. Three independent mouse models, where myonuclear numbers were reduced by 75, 55, or 25%, led to the discovery that myonuclei possess a reserve capacity to support larger functional cytoplasmic volumes in developing myofibers. Surprisingly, the results revealed an inverse relationship between nuclei numbers and reserve capacity. We propose that as myonuclear numbers increase, the range of transcriptional return on a per nuclear basis in myofibers diminishes, which accounts for both the absolute reliance developing myofibers have on nuclear accrual to establish size, and the limits of adaptability in adult skeletal muscle.

AB - Mammalian cells exhibit remarkable diversity in cell size, but the factors that regulate establishment and maintenance of these sizes remain poorly understood. This is especially true for skeletal muscle, comprised of syncytial myofibers that each accrue hundreds of nuclei during development. Here, we directly explore the assumed causal relationship between multinucleation and establishment of normal size through titration of myonuclear numbers during mouse neonatal development. Three independent mouse models, where myonuclear numbers were reduced by 75, 55, or 25%, led to the discovery that myonuclei possess a reserve capacity to support larger functional cytoplasmic volumes in developing myofibers. Surprisingly, the results revealed an inverse relationship between nuclei numbers and reserve capacity. We propose that as myonuclear numbers increase, the range of transcriptional return on a per nuclear basis in myofibers diminishes, which accounts for both the absolute reliance developing myofibers have on nuclear accrual to establish size, and the limits of adaptability in adult skeletal muscle.

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Nuclear numbers in syncytial muscle fibers promote size but limit the development of larger myonuclear domains

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