随着衰老，小鼠肌肉干细胞对神经肌肉接头扰动的反应会减弱。

Murine muscle stem cell response to perturbations of the neuromuscular junction are attenuated with aging.

作者信息

Larouche Jacqueline A, Mohiuddin Mahir, Choi Jeongmoon J, Ulintz Peter J, Fraczek Paula, Sabin Kaitlyn, Pitchiaya Sethuramasundaram, Kurpiers Sarah J, Castor-Macias Jesus, Liu Wenxuan, Hastings Robert Louis, Brown Lemuel A, Markworth James F, De Silva Kanishka, Levi Benjamin, Merajver Sofia D, Valdez Gregorio, Chakkalakal Joe V, Jang Young C, Brooks Susan V, Aguilar Carlos A

机构信息

Department of Biomedical Engineering, University of Michigan, Ann Arbor, United States.

Biointerfaces Institute, University of Michigan, Ann Arbor, United States.

出版信息

Elife. 2021 Jul 29;10:e66749. doi: 10.7554/eLife.66749.

DOI:10.7554/eLife.66749

PMID:34323217

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8360658/

Abstract

During aging and neuromuscular diseases, there is a progressive loss of skeletal muscle volume and function impacting mobility and quality of life. Muscle loss is often associated with denervation and a loss of resident muscle stem cells (satellite cells or MuSCs); however, the relationship between MuSCs and innervation has not been established. Herein, we administered severe neuromuscular trauma to a transgenic murine model that permits MuSC lineage tracing. We show that a subset of MuSCs specifically engraft in a position proximal to the neuromuscular junction (NMJ), the synapse between myofibers and motor neurons, in healthy young adult muscles. In aging and in a mouse model of neuromuscular degeneration (Cu/Zn superoxide dismutase knockout - ), this localized engraftment behavior was reduced. Genetic rescue of motor neurons in mice reestablished integrity of the NMJ in a manner akin to young muscle and partially restored MuSC ability to engraft into positions proximal to the NMJ. Using single cell RNA-sequencing of MuSCs isolated from aged muscle, we demonstrate that a subset of MuSCs are molecularly distinguishable from MuSCs responding to myofiber injury and share similarity to synaptic myonuclei. Collectively, these data reveal unique features of MuSCs that respond to synaptic perturbations caused by aging and other stressors.

摘要

在衰老和神经肌肉疾病过程中，骨骼肌体积和功能会逐渐丧失，影响运动能力和生活质量。肌肉流失通常与去神经支配以及驻留肌肉干细胞（卫星细胞或肌肉干细胞）的丧失有关；然而，肌肉干细胞与神经支配之间的关系尚未明确。在此，我们对一种允许进行肌肉干细胞谱系追踪的转基因小鼠模型施加了严重的神经肌肉损伤。我们发现，在健康的年轻成年肌肉中，一部分肌肉干细胞特异性地植入到神经肌肉接头（NMJ）近端的位置，即肌纤维与运动神经元之间的突触处。在衰老过程以及神经肌肉变性小鼠模型（铜/锌超氧化物歧化酶基因敲除小鼠）中，这种局部植入行为减少。对小鼠运动神经元进行基因拯救后，神经肌肉接头的完整性得以重建，其方式类似于年轻肌肉，并部分恢复了肌肉干细胞植入神经肌肉接头近端位置的能力。通过对从衰老肌肉中分离出的肌肉干细胞进行单细胞RNA测序，我们证明一部分肌肉干细胞在分子水平上与对肌纤维损伤做出反应的肌肉干细胞不同，并且与突触肌核具有相似性。总的来说，这些数据揭示了肌肉干细胞对衰老和其他应激源引起的突触扰动做出反应的独特特征。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3511/8360658/a43191c56a65/elife-66749-fig1.jpg

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随着衰老，小鼠肌肉干细胞对神经肌肉接头扰动的反应会减弱。

Murine muscle stem cell response to perturbations of the neuromuscular junction are attenuated with aging.

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