The Jackson Laboratory, Bar Harbor ME, USA.
Departments of Orthopedic Surgery and Cell Biology, Duke University School of Medicine, Durham NC, USA.
Curr Top Dev Biol. 2024;158:1-14. doi: 10.1016/bs.ctdb.2024.01.020. Epub 2024 Feb 15.
Embryonic skeletal muscle growth is contingent upon a population of somite derived satellite cells, however, the contribution of these cells to early postnatal skeletal muscle growth remains relatively high. As prepubertal postnatal development proceeds, the activity and contribution of satellite cells to skeletal muscle growth diminishes. Eventually, at around puberty, a population of satellite cells escapes terminal commitment, continues to express the paired box transcription factor Pax7, and reside in a quiescent state orbiting the myofiber periphery adjacent to the basal lamina. After adolescence, some satellite cell contributions to muscle maintenance and adaptation occur, however, their necessity is reduced relative to embryonic, early postnatal, and prepubertal growth.
胚胎骨骼肌肉的生长依赖于体节衍生的卫星细胞群体,然而,这些细胞对早期出生后骨骼肌肉生长的贡献仍然相对较高。随着青春期前的出生后发育的进行,卫星细胞的活性和对骨骼肌肉生长的贡献会逐渐减少。最终,大约在青春期,一群卫星细胞逃脱终末分化,继续表达配对盒转录因子 Pax7,并处于静止状态,围绕着靠近基底膜的肌纤维外周盘旋。青春期后,卫星细胞对肌肉维持和适应有一定的贡献,但相对于胚胎期、出生后早期和青春期前的生长,其必要性降低。
