AI Article Synopsis
- Satellite cells are specialized stem cells in adult skeletal muscle that help with muscle maintenance and repair by becoming myoblasts or forming new myofibers.
- Pax7 is commonly used as a marker to identify these satellite cells, enabling researchers to study their role in muscle regeneration.
- The document outlines a method for isolating and identifying satellite cells in muscle tissues using techniques like cryosectioning and co-immunostaining with Pax7 and laminin.
Article Abstract
Adult skeletal muscle is maintained and repaired by resident stem cells called satellite cells, located between the plasmalemma of a muscle fiber, and the surrounding basal lamina. When needed, satellite cells are activated to form proliferative myoblasts, that then differentiate and fuse to existing muscle fibers, or fuse together to form replacement myofibers. In parallel, a proportion of satellite cells self-renew, to maintain the stem cell pool. To date, Pax7 is the marker of choice for identifying quiescent satellite cells. Co-immunostaining of skeletal muscle with Pax7 and laminin allows both identification of satellite cells, and the myofiber that they are associated with. Furthermore, satellite cells can be followed through the early stages of the myogenic program by co-immunostaining with myogenic regulatory factors such as MyoD. To test genetically modified mice for satellite cell expression, co-immunostaining can be performed for Pax7 and reporter genes such as eGFP. Here, we describe a method for identification of satellite cells in skeletal muscle sections, including muscle isolation, cryosectioning and co-immunostaining for Pax7 and laminin.
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| http://dx.doi.org/10.1007/978-1-4939-3810-0_8 | DOI Listing |
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