Institut Pasteur, Stem Cells and Development, CNRS URA 2578, 25 rue du Dr Roux, Paris, F-75015, France.
Development. 2011 Sep;138(17):3647-56. doi: 10.1242/dev.067587.
Distinct cell populations with regenerative capacity have been reported to contribute to myofibres after skeletal muscle injury, including non-satellite cells as well as myogenic satellite cells. However, the relative contribution of these distinct cell types to skeletal muscle repair and homeostasis and the identity of adult muscle stem cells remain unknown. We generated a model for the conditional depletion of satellite cells by expressing a human diphtheria toxin receptor under control of the murine Pax7 locus. Intramuscular injection of diphtheria toxin during muscle homeostasis, or combined with muscle injury caused by myotoxins or exercise, led to a marked loss of muscle tissue and failure to regenerate skeletal muscle. Moreover, the muscle tissue became infiltrated by inflammatory cells and adipocytes. This localised loss of satellite cells was not compensated for endogenously by other cell types, but muscle regeneration was rescued after transplantation of adult Pax7(+) satellite cells alone. These findings indicate that other cell types with regenerative potential depend on the presence of the satellite cell population, and these observations have important implications for myopathic conditions and stem cell-based therapeutic approaches.
已有研究报道,在骨骼肌损伤后,具有再生能力的不同细胞群体有助于肌纤维的再生,包括非卫星细胞和肌源性卫星细胞。然而,这些不同细胞类型对骨骼肌修复和稳态的相对贡献以及成体肌肉干细胞的身份仍不清楚。我们通过在 Pax7 基因座的控制下表达人白喉毒素受体,建立了一种条件性卫星细胞耗竭模型。在肌肉稳态时或与肌毒性物质或运动引起的肌肉损伤联合进行肌肉内白喉毒素注射,导致明显的肌肉组织丧失和骨骼肌无法再生。此外,肌肉组织被炎症细胞和脂肪细胞浸润。这种卫星细胞的局部缺失不能被其他细胞类型内源性补偿,但在单独移植成年 Pax7(+)卫星细胞后,肌肉再生得到挽救。这些发现表明,具有再生潜能的其他细胞类型依赖于卫星细胞群体的存在,这些观察结果对肌病和基于干细胞的治疗方法具有重要意义。
