Nuclei on the move for muscle self-repair

Nuclei on the move for muscle self-repair
The microtubule network (green) re-organizes at the muscle lesion and attracts myonuclei. Crédits: William Roman, iMM. Credit: William Roman, iMM.

Muscle is known to regenerate through a complex process that involves several steps and depends on stem cells. Now, a new study led by researchers at the Instituto de Medicina Molecular João Lobo Antunes (iMM; Portugal) and the University Pompeu Fabra (UPF Barcelona; Spain) and published today in the scientific journal Science, describes a new mechanism for muscle regeneration after physiological damage relying on the rearrangement of nuclei. This protective mechanism opens the road to a broader understanding of muscle repair in physiology and disease.

Skeletal tissue, which is important for locomotion, is formed by cells that have more than one nucleus, an almost unique feature in the human body. Despite the plasticity of muscle cells, their contraction can be accompanied by muscle damage. William Roman, main author of the study and researcher at iMM and UPF Barcelona, explains: "Even in physiological conditions, regeneration is vital for muscle to endure the mechanical stress of contraction, which often leads to cellular damage." Although has been investigated in recent decades, most studies were centered on mechanisms involving other cells, including muscle , which are required upon extensive muscle damage.

"In this study, we found an alternative mechanism of regeneration that is muscle cell autonomous," says Pura Muñoz-Cánoves, group leader at the University Pompeu Fabra, and study leader. Researchers used different in vitro models of injury and models of exercise in mice and humans to observe that upon injury, nuclei are attracted to the damage site, accelerating the repair of the contractile units.

Next, the team dissected the molecular mechanism of this observation: "Our experiments with muscle cells in the laboratory showed that the movement of nuclei to injury sites resulted in local delivery of mRNA molecules. These mRNA molecules are translated into proteins at the site of injury to act as building blocks for muscle repair," explains William Roman. On the importance of these discoveries, Pura Muñoz-Cánoves says: "This finding constitutes an important advance in the understanding of muscle biology, in physiology and muscle dysfunction."

In addition to its implications for muscle research, this study also introduces more general concepts for cell biology, such as the nuclear movement to injury sites. "One of the most fascinating things in these is the movement during development of their nuclei, the biggest organelles inside the cell, but the reasons why nuclei move are largely unknown. Now, we showed a functional relevance for this phenomenon in adulthood during cellular repair and regeneration," says Edgar R. Gomes, group leader at the Instituto de Medicina Molecular and Professor at Faculdade de Medicina da Universidade de Lisboa, who co-led the study.


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More information: William Roman, Muscle repair after physiological damage relies on nuclear migration for cellular reconstruction, Science (2021). DOI: 10.1126/science.abe5620. www.science.org/doi/10.1126/science.abe5620
Journal information: Science

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