Abstract
Post-natal growth and regeneration of skeletal muscle is highly dependent on a population of resident myogenic precursors known as satellite cells. Transcription factors from the Pax gene family, Pax3 and Pax7, are critical for satellite cell biogenesis, survival and potentially self-renewal; however, the underlying molecular mechanisms remain unsolved. This is particularly true in the case of Pax7, which appears to regulate myogenesis at multiple levels. Accordingly, recent data have highlighted the importance of a functional relationship between Pax7 and the MyoD family of muscle regulatory transcription factors during normal muscle formation and disease. Here we will critically review key findings suggesting that Pax7 may play a dual role by promoting resident muscle progenitors to commit to the skeletal muscle lineage while preventing terminal differentiation, thus keeping muscle progenitors poised to differentiate upon environmental cues. In addition, potential regulatory mechanisms for the control of Pax7 activity will be proposed.
Highlights
The ability to repair adult damaged tissues is critical for organ function and maintenance
Recent data have highlighted the importance of a functional relationship between Pax7 and the MyoD family of muscle regulatory transcription factors during normal muscle formation and disease
Quiescent satellite cells do not express Muscle Regulatory transcription Factors (MRFs) [3, 6], which are required for myogenic lineage commitment and terminal differentiation
Summary
Marking the tempo for myogenesis: Pax and the regulation of muscle stem cell fate decisions. Olguín a, *, Addolorata Pisconti b a Departamento Biología Celular y Molecular, Facultad de Ciencias Biológicas., Pontificia Universidad Católica de Chile, Santiago, Chile b Molecular Cellular and Developmental Biology Department, University of Colorado, UCB347, Boulder, CO, USA. Extracellular signalling and the control of Pax in muscle progenitors - Wnt signalling - Notch signalling - The transforming growth factor- (TGF-) superfamily - Syndecans - Tumour necrosis factor-␣ (TNF-␣) and p38
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