分化揭示了衰老和小鼠肌发生中能量障碍的潜在特征。

Differentiation reveals latent features of aging and an energy barrier in murine myogenesis.

机构信息

Calico Life Sciences, 1170 Veterans Blvd., South San Francisco, CA 94080, USA.

出版信息

Cell Rep. 2021 Apr 27;35(4):109046. doi: 10.1016/j.celrep.2021.109046.

DOI:10.1016/j.celrep.2021.109046

Abstract

Skeletal muscle experiences a decline in lean mass and regenerative potential with age, in part due to intrinsic changes in progenitor cells. However, it remains unclear how age-related changes in progenitors manifest across a differentiation trajectory. Here, we perform single-cell RNA sequencing (RNA-seq) on muscle mononuclear cells from young and aged mice and profile muscle stem cells (MuSCs) and fibro-adipose progenitors (FAPs) after differentiation. Differentiation increases the magnitude of age-related change in MuSCs and FAPs, but it also masks a subset of age-related changes present in progenitors. Using a dynamical systems approach and RNA velocity, we find that aged MuSCs follow the same differentiation trajectory as young cells but stall in differentiation near a commitment decision. Our results suggest that differentiation reveals latent features of aging and that fate commitment decisions are delayed in aged myogenic cells in vitro.

摘要

骨骼肌随着年龄的增长会出现瘦肉质量和再生能力的下降，部分原因是祖细胞的内在变化。然而，祖细胞在分化轨迹上的年龄相关性变化如何表现仍不清楚。在这里，我们对年轻和老年小鼠的肌肉单核细胞进行了单细胞 RNA 测序 (RNA-seq)，并在分化后对肌肉干细胞 (MuSCs) 和纤维脂肪前体细胞 (FAPs) 进行了分析。分化增加了 MuSCs 和 FAPs 中与年龄相关变化的幅度，但它也掩盖了祖细胞中存在的一部分与年龄相关的变化。使用动力系统方法和 RNA 速度，我们发现老年 MuSCs 遵循与年轻细胞相同的分化轨迹，但在接近决定分化的地方停滞。我们的研究结果表明，分化揭示了衰老的潜在特征，并且体外老年成肌细胞的命运决定被延迟。

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分化揭示了衰老和小鼠肌发生中能量障碍的潜在特征。

Differentiation reveals latent features of aging and an energy barrier in murine myogenesis.

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