横纹肌肉瘤和肌肉萎缩症中的肌肉干细胞功能障碍。

2区 生物学 Q1 Biochemistry, Genetics and Molecular Biology
Current Topics in Developmental Biology Pub Date : 2024-01-01 Epub Date: 2024-02-19 DOI:10.1016/bs.ctdb.2024.01.019
Rebecca Robertson, Shulei Li, Romina L Filippelli, Natasha C Chang
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引用次数: 0

摘要

肌肉干细胞(MuSCs)对成熟骨骼肌的修复和平衡至关重要。肌肉干细胞功能障碍和肌生成程序失调可导致各种病理发展,包括横纹肌肉瘤(RMS)等癌症或杜氏肌营养不良症(DMD)等肌肉退行性疾病。这两种疾病在肌肉生成的几乎所有步骤中都表现出失调。例如,肌肉干细胞的自我更新过程发生了改变。在 RMS 中,这会导致肿瘤繁殖细胞的产生。在DMD中,不对称干细胞分裂受损,导致产生自我更新的干细胞,而不是进行分化。在RMS中,这些细胞的过度增殖导致肿瘤发生,而在DMD中,自我更新的MuSC群体对称性扩张。这两种疾病还表现出参与终末分化的因子受到抑制,使RMS细胞停止增殖阶段,从而推动了肿瘤的生长。相反,DMD 中的造血干细胞则表现出分化障碍和过早融合,从而影响肌核成熟和萎缩性肌纤维的完整性。最后,这两种疾病状态都会导致间充质干细胞生态位发生改变。生态位的各种因素,如影响肌肉干细胞行为的炎症和迁移信号,都会发生失调。在这里,我们展示了这些看似遥远相关的疾病在间充质干细胞功能障碍方面的相似之处,从而说明在研究肌肉疾病的病理生理学时考虑间充质干细胞的重要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Muscle stem cell dysfunction in rhabdomyosarcoma and muscular dystrophy.

Muscle stem cells (MuSCs) are crucial to the repair and homeostasis of mature skeletal muscle. MuSC dysfunction and dysregulation of the myogenic program can contribute to the development of pathology ranging from cancers like rhabdomyosarcoma (RMS) or muscle degenerative diseases such as Duchenne muscular dystrophy (DMD). Both diseases exhibit dysregulation at nearly all steps of myogenesis. For instance, MuSC self-renewal processes are altered. In RMS, this leads to the creation of tumor propagating cells. In DMD, impaired asymmetric stem cell division creates a bias towards producing self-renewing stem cells instead of committing to differentiation. Hyperproliferation of these cells contribute to tumorigenesis in RMS and symmetric expansion of the self-renewing MuSC population in DMD. Both diseases also exhibit a repression of factors involved in terminal differentiation, halting RMS cells in the proliferative stage and thus driving tumor growth. Conversely, the MuSCs in DMD exhibit impaired differentiation and fuse prematurely, affecting myonuclei maturation and the integrity of the dystrophic muscle fiber. Finally, both disease states cause alterations to the MuSC niche. Various elements of the niche such as inflammatory and migratory signaling that impact MuSC behavior are dysregulated. Here we show how these seemingly distantly related diseases indeed have similarities in MuSC dysfunction, underlying the importance of considering MuSCs when studying the pathophysiology of muscle diseases.

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