Prelamin A causes aberrant myonuclear arrangement and results in muscle fiber weakness
Yotam Levy, Jacob A. Ross, Marili Niglas, Vladimir A. Snetkov, Steven Lynham, Chen-Yu Liao, Megan J. Puckelwartz, Yueh-Mei Hsu, Elizabeth M. McNally, Manfred Alsheimer, Stephen D.R. Harridge, Stephen G. Young, Loren G. Fong, Yaiza Español, Carlos Lopez-Otin, Brian K. Kennedy, Dawn A. Lowe, Julien Ochala
Yotam Levy, Jacob A. Ross, Marili Niglas, Vladimir A. Snetkov, Steven Lynham, Chen-Yu Liao, Megan J. Puckelwartz, Yueh-Mei Hsu, Elizabeth M. McNally, Manfred Alsheimer, Stephen D.R. Harridge, Stephen G. Young, Loren G. Fong, Yaiza Español, Carlos Lopez-Otin, Brian K. Kennedy, Dawn A. Lowe, Julien Ochala
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Research Article Aging Muscle biology

Prelamin A causes aberrant myonuclear arrangement and results in muscle fiber weakness

Abstract

Physiological and premature aging are frequently associated with an accumulation of prelamin A, a precursor of lamin A, in the nuclear envelope of various cell types. Here, we aimed to underpin the hitherto unknown mechanisms by which prelamin A alters myonuclear organization and muscle fiber function. By experimentally studying membrane-permeabilized myofibers from various transgenic mouse lines, our results indicate that, in the presence of prelamin A, the abundance of nuclei and myosin content is markedly reduced within muscle fibers. This leads to a concept by which the remaining myonuclei are very distant from each other and are pushed to function beyond their maximum cytoplasmic capacity, ultimately inducing muscle fiber weakness.

Authors

Yotam Levy, Jacob A. Ross, Marili Niglas, Vladimir A. Snetkov, Steven Lynham, Chen-Yu Liao, Megan J. Puckelwartz, Yueh-Mei Hsu, Elizabeth M. McNally, Manfred Alsheimer, Stephen D.R. Harridge, Stephen G. Young, Loren G. Fong, Yaiza Español, Carlos Lopez-Otin, Brian K. Kennedy, Dawn A. Lowe, Julien Ochala

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Figure 11

Measurement of the rate of force redevelopment.

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Measurement of the rate of force redevelopment. Original recordings for ...
Original recordings for the calculation of the rate of force redevelopment. Length and force signals of myofibers from one 4-month-old WT animal and from one age-matched homozygous Zmpste24-deficient (Zmpste24 KO) mouse are shown. Note that the time to half force recovery was 16 ms for WT and 18 ms for Zmpste24 KO. Hence, the rate of force redevelopment was 43.30 s–1 for WT and 38.50 s–1 for Zmpste24 KO. Note also that the force recovery is close to 100% for these original recordings as well as for most of all the other myofibers.