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衰老通过破坏成肌脂肪祖细胞中细胞基质 WISP1 的分泌来破坏肌肉干细胞功能。

Aging Disrupts Muscle Stem Cell Function by Impairing Matricellular WISP1 Secretion from Fibro-Adipogenic Progenitors.

机构信息

Nestlé Research, EPFL Innovation Park, 1015 Lausanne, Switzerland; School of Life Sciences, Ecole Polytechnique Federale de Lausanne (EPFL), 1015 Lausanne, Switzerland.

Nestlé Research, EPFL Innovation Park, 1015 Lausanne, Switzerland.

出版信息

Cell Stem Cell. 2019 Mar 7;24(3):433-446.e7. doi: 10.1016/j.stem.2018.12.014. Epub 2019 Jan 24.

DOI:10.1016/j.stem.2018.12.014
PMID:30686765
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6408230/
Abstract

Research on age-related regenerative failure of skeletal muscle has extensively focused on the phenotypes of muscle stem cells (MuSCs). In contrast, the impact of aging on regulatory cells in the MuSC niche remains largely unexplored. Here, we demonstrate that aging impairs the function of mouse fibro-adipogenic progenitors (FAPs) and thereby indirectly affects the myogenic potential of MuSCs. Using transcriptomic profiling, we identify WNT1 Inducible Signaling Pathway Protein 1 (WISP1) as a FAP-derived matricellular signal that is lost during aging. WISP1 is required for efficient muscle regeneration and controls the expansion and asymmetric commitment of MuSCs through Akt signaling. Transplantation of young FAPs or systemic treatment with WISP1 restores the myogenic capacity of MuSCs in aged mice and rescues skeletal muscle regeneration. Our work establishes that loss of WISP1 from FAPs contributes to MuSC dysfunction in aged skeletal muscles and demonstrates that this mechanism can be targeted to rejuvenate myogenesis.

摘要

骨骼肌与年龄相关的再生衰竭的研究主要集中在肌肉干细胞(MuSCs)的表型上。相比之下,衰老对 MuSC 龛位中调节细胞的影响在很大程度上仍未得到探索。在这里,我们证明衰老会损害小鼠成纤维脂肪前体细胞(FAPs)的功能,从而间接影响 MuSCs 的成肌潜能。通过转录组谱分析,我们确定 WNT1 诱导信号通路蛋白 1(WISP1)是一种 FAP 衍生的细胞外基质信号分子,在衰老过程中会丢失。WISP1 对于有效的肌肉再生是必需的,并且通过 Akt 信号控制 MuSCs 的扩增和不对称分化。年轻 FAP 的移植或 WISP1 的系统治疗可恢复老年小鼠 MuSCs 的成肌能力,并挽救骨骼肌再生。我们的工作表明,FAP 中 WISP1 的缺失导致衰老骨骼肌中 MuSC 功能障碍,并证明可以针对这种机制来恢复成肌作用。

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Muscle Satellite Cell Cross-Talk with a Vascular Niche Maintains Quiescence via VEGF and Notch Signaling.肌肉卫星细胞与血管龛的相互作用通过 VEGF 和 Notch 信号维持静息状态。
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