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Pericytes resident in postnatal skeletal muscle differentiate into muscle fibres and generate satellite cells

2011; Nature Portfolio; Volume: 2; Issue: 1 Linguagem: Inglês

10.1038/ncomms1508

2041-1723

Arianna Dellavalle, Giovanni Maroli, Diego Covarello, Emanuele Azzoni, A Innocenzi, Laura Perani, S. Antonini, Ramkumar Sambasivan, Silvia Brunelli, Shahragim Tajbakhsh, Giulio Cossu,

Mesenchymal stem cell research

Skeletal muscle fibres form by fusion of mesoderm progenitors called myoblasts. After birth, muscle fibres do not increase in number but continue to grow in size because of fusion of satellite cells, the postnatal myogenic cells, responsible for muscle growth and regeneration. Numerous studies suggest that, on transplantation, non-myogenic cells also may contribute to muscle regeneration. However, there is currently no evidence that such a contribution represents a natural developmental option of these non-myogenic cells, rather than a consequence of experimental manipulation resulting in cell fusion. Here we show that pericytes, transgenically labelled with an inducible Alkaline Phosphatase CreERT2, but not endothelial cells, fuse with developing myofibres and enter the satellite cell compartment during unperturbed postnatal development. This contribution increases significantly during acute injury or in chronically regenerating dystrophic muscle. These data show that pericytes, resident in small vessels of skeletal muscle, contribute to its growth and regeneration during postnatal life. The fusion of satellite cells to muscle fibres during adult life is required for both muscle growth and regeneration but it is unknown whether non-muscle cells contribute to this process. Now, Dellavalle and colleagues show that pericytes, cells associated with the vasculature can contribute to both growth and regeneration of muscle fibres.