Analysis of MM14 mouse myoblasts demonstrates that terminal differentiation is repressed by pure preparations of both acidic and basic fibroblast growth factor (FGF). Basic FGF is approximately 30-fold more potent than acidic FGF and it exhibits half maximal activity in clonal assays at 0.03 ng/ml (2 pM). FGF repression occurs only during the G1 phase of the cell cycle by a mechanism that appears to be independent of ongoing cell proliferation. When exponentially growing myoblasts are deprived of FGF, cells become postmitotic within 2-3 h, express muscle-specific proteins within 6-7 h, and commence fusion within 12-14 h. Although expression of these three terminal differentiation phenotypes occurs at different times, all are initiated by a single regulatory "commitment" event in G1. The entire population commits to terminal differentiation within 12.5 h of FGF removal as all cells complete the cell cycle and move into G1. Differentiation does not require a new round of DNA synthesis. Comparison of MM14 behavior with other myoblast types suggests a general model for skeletal muscle development in which specific growth factors serve the dual role of stimulating myoblast proliferation and directly repressing terminal differentiation.
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1 August 1987
Article|
August 01 1987
Growth factor control of skeletal muscle differentiation: commitment to terminal differentiation occurs in G1 phase and is repressed by fibroblast growth factor.
C H Clegg
T A Linkhart
B B Olwin
S D Hauschka
Online ISSN: 1540-8140
Print ISSN: 0021-9525
J Cell Biol (1987) 105 (2): 949–956.
Citation
C H Clegg, T A Linkhart, B B Olwin, S D Hauschka; Growth factor control of skeletal muscle differentiation: commitment to terminal differentiation occurs in G1 phase and is repressed by fibroblast growth factor.. J Cell Biol 1 August 1987; 105 (2): 949–956. doi: https://doi.org/10.1083/jcb.105.2.949
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