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Satellite cells have a crucial role in muscle regeneration due to their ability to proliferate, differentiate, and self-renew. Prior to a severe injury to the muscle, satellite cells are in a dormant state. Slight proliferation can occur in times of light injuries but major injuries require greater numbers of satellite cells to activate.
As the muscle completes repair Wnt7b and Wnt3a are increased as well. This patterning of Wnt signalling expression in muscle cell repair induces the differentiation of the progenitor cells, which reduces the number of available satellite cells. Wnt plays a crucial role in satellite cell regulation and skeletal muscle aging and also regeneration.
Wagers researches intrinsic and extrinsic regulators of stem cell function and how stem cells impact tissue regeneration and aging. She has demonstrated that transplantation of satellite cells into injured, diseased, or aged muscle can lead to cell engraftment, in some cases restoring muscle function.
This disrupts the proper linkage between the basal lamina and muscle cell membrane. Consequently, the contractile mechanism is disrupted. Integrin-α7β1 is important to satellite cell function, and myoblast adhesion and viability. Thusly, integrin-α7β1is an important contributor to skeletal muscle regeneration.
Although muscle contains a stem cell population called satellite cells that are capable of regenerating small muscle injuries, muscle damage in VML is so extensive that it overwhelms muscle's natural regenerative capabilities. Currently VML is treated through an autologous muscle flap or graft but there are various problems associated with this ...
As one of the key cell markers of satellite cells (the stem cell pool for skeletal muscles), it plays an important role in the regeneration of adult muscle. [18] Specifically, it allows a brief pulse of proliferation of these satellite cells in response to injury. Differentiation begins (regulated by other genes) after this initial proliferation.
They are crucial for the repair of muscle, but have a very limited ability to replicate. Activated by stimuli such as injury or high mechanical load, satellite cells are required for muscle regeneration in adult organisms. [4] In addition, satellite cells have the capability to also differentiate into bone or fat.
Myostatin is a myokine that is produced and released by myocytes and acts on muscle cells to inhibit muscle growth. [7] Myostatin is a secreted growth differentiation factor that is a member of the TGF beta protein family. [8] [9] Myostatin is assembled and produced in skeletal muscle before it is released into the blood stream. [10]