骨骼肌中的卫星细胞:异质性的故事

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.2024.01.018
Corentin Guilhot, Marie Catenacci, Stephanie Lofaro, Michael A Rudnicki
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引用次数: 0

摘要

骨骼肌是哺乳动物中代表性很强的组织,由适应性极强、能够再生的纤维组成。肌肉纤维的这一特性得益于一种名为卫星细胞的细胞类型。卫星细胞毗邻肌纤维,处于静止状态,位于肌纤维膜和基底膜之间。骨骼肌的生长和再生需要这些细胞来完成。众所周知,从肌纤维的激活到分化/融合,这一过程顺序紧密。然而,在过去的 15 年中,研究人员一直有兴趣研究卫星细胞的异质性,并根据定位、静止状态、干性能力、细胞周期进展或基因表达,确定了显示不同特征的不同亚群。一小部分卫星细胞似乎代表多能的长期自我更新肌肉干细胞(MuSC)。所有这些区别使我们提出了一个假设,即肌肉生成的特征可能不是线性的,因此,基于卫星细胞是一个异质性群体的证据,它可能更具容许性。在这篇综述中,我们讨论了卫星细胞池中存在的不同亚群,以突出其异质性,并进一步了解肌生成的进展。最后,我们将讨论能够进行不对称分裂的长期自我更新造血干细胞亚群,并讨论在健康和疾病期间调节造血干细胞极化的分子机制。
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The satellite cell in skeletal muscle: A story of heterogeneity.

Skeletal muscle is a highly represented tissue in mammals and is composed of fibers that are extremely adaptable and capable of regeneration. This characteristic of muscle fibers is made possible by a cell type called satellite cells. Adjacent to the fibers, satellite cells are found in a quiescent state and located between the muscle fibers membrane and the basal lamina. These cells are required for the growth and regeneration of skeletal muscle through myogenesis. This process is known to be tightly sequenced from the activation to the differentiation/fusion of myofibers. However, for the past fifteen years, researchers have been interested in examining satellite cell heterogeneity and have identified different subpopulations displaying distinct characteristics based on localization, quiescence state, stemness capacity, cell-cycle progression or gene expression. A small subset of satellite cells appears to represent multipotent long-term self-renewing muscle stem cells (MuSC). All these distinctions led us to the hypothesis that the characteristics of myogenesis might not be linear and therefore may be more permissive based on the evidence that satellite cells are a heterogeneous population. In this review, we discuss the different subpopulations that exist within the satellite cell pool to highlight the heterogeneity and to gain further understanding of the myogenesis progress. Finally, we discuss the long term self-renewing MuSC subpopulation that is capable of dividing asymmetrically and discuss the molecular mechanisms regulating MuSC polarization during health and disease.

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来源期刊
CiteScore
6.00
自引率
0.00%
发文量
91
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