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MACF1 controls skeletal muscle function through the microtubule-dependent localization of extra-synaptic myonuclei and mitochondria biogenesis. | LitMetric

AI Article Synopsis

  • Skeletal muscles consist of myofibers that have their nuclei positioned along the edges, a structure altered in muscle diseases like centronuclear myopathies (CNMs), and the mechanisms behind this organization are not well understood.* -
  • The study identifies MACF1, a microtubule-associated protein, as key in maintaining proper myonuclei positioning in muscle fibers by regulating microtubule dynamics during muscle maturation.* -
  • MACF1 deficiency disrupts myonuclei positioning and the microtubule network, leading to reduced muscle excitability; however, it enhances fatigue resistance and promotes mitochondria biogenesis in adult mice.*

Article Abstract

Skeletal muscles are composed of hundreds of multinucleated muscle fibers (myofibers) whose myonuclei are regularly positioned all along the myofiber's periphery except the few ones clustered underneath the neuromuscular junction (NMJ) at the synaptic zone. This precise myonuclei organization is altered in different types of muscle disease, including centronuclear myopathies (CNMs). However, the molecular machinery regulating myonuclei position and organization in mature myofibers remains largely unknown. Conversely, it is also unclear how peripheral myonuclei positioning is lost in the related muscle diseases. Here, we describe the microtubule-associated protein, MACF1, as an essential and evolutionary conserved regulator of myonuclei positioning and maintenance, in cultured mammalian myotubes, in muscle, and in adult mammalian muscle using a conditional muscle-specific knockout mouse model. In vitro, we show that MACF1 controls microtubules dynamics and contributes to microtubule stabilization during myofiber's maturation. In addition, we demonstrate that MACF1 regulates the microtubules density specifically around myonuclei, and, as a consequence, governs myonuclei motion. Our in vivo studies show that MACF1 deficiency is associated with alteration of extra-synaptic myonuclei positioning and microtubules network organization, both preceding NMJ fragmentation. Accordingly, MACF1 deficiency results in reduced muscle excitability and disorganized triads, leaving voltage-activated sarcoplasmic reticulum Ca release and maximal muscle force unchanged. Finally, adult MACF1-KO mice present an improved resistance to fatigue correlated with a strong increase in mitochondria biogenesis.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8500715PMC
http://dx.doi.org/10.7554/eLife.70490DOI Listing

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