[HTML][HTML] The muscle satellite cell at 50: the formative years

J Scharner, PS Zammit - Skeletal muscle, 2011 - Springer
J Scharner, PS Zammit
Skeletal muscle, 2011Springer
Abstract In February 1961, Alexander Mauro described a cell'wedged'between the plasma
membrane of the muscle fibre and the surrounding basement membrane. He postulated that
it could be a dormant myoblast, poised to repair muscle when needed. In the same month,
Bernard Katz also reported a cell in a similar location on muscle spindles, suggesting that it
was associated with development and growth of intrafusal muscle fibres. Both Mauro and
Katz used the term'satellite cell'in relation to their discoveries. Today, the muscle satellite cell …
Abstract
In February 1961, Alexander Mauro described a cell 'wedged' between the plasma membrane of the muscle fibre and the surrounding basement membrane. He postulated that it could be a dormant myoblast, poised to repair muscle when needed. In the same month, Bernard Katz also reported a cell in a similar location on muscle spindles, suggesting that it was associated with development and growth of intrafusal muscle fibres. Both Mauro and Katz used the term 'satellite cell' in relation to their discoveries. Today, the muscle satellite cell is widely accepted as the resident stem cell of skeletal muscle, supplying myoblasts for growth, homeostasis and repair.
Since 2011 marks both the 50th anniversary of the discovery of the satellite cell, and the launch of Skeletal Muscle, it seems an opportune moment to summarise the seminal events in the history of research into muscle regeneration. We start with the 19th-century pioneers who showed that muscle had a regenerative capacity, through to the descriptions from the mid-20th century of the underlying cellular mechanisms. The journey of the satellite cell from electron microscope curio, to its gradual acceptance as a bona fide myoblast precursor, is then charted: work that provided the foundations for our understanding of the role of the satellite cell. Finally, the rapid progress in the age of molecular biology is briefly discussed, and some ongoing debates on satellite cell function highlighted.
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