年龄对损伤后骨骼肌祖细胞存活和命运的影响。

The Impact of Age on Skeletal Muscle Progenitor Cell Survival and Fate After Injury.

机构信息

1 Wake Forest Institute for Regenerative Medicine, Wake Forest University School of Medicine , Winston-Salem, North Carolina.

2 Cell Molecular & Developmental Biology, University of Alabama , Birmingham, Alabama.

出版信息

Tissue Eng Part C Methods. 2017 Dec;23(12):1012-1021. doi: 10.1089/ten.TEC.2017.0216.

DOI:10.1089/ten.TEC.2017.0216

PMID:29092672

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6112161/

Abstract

Sarcopenia is defined as the loss of skeletal muscle mass and function due to age, and represents a major cause of disability in the elderly population. The contributing factors to the onset of sarcopenia are not well defined, but appear to involve age-dependent changes in both the tissue microenvironment and muscle progenitor cell (MPC) population. MPC transplantation has the potential to be a novel therapy for treatment of muscle dysfunction due to aging or injury, but has not shown significant clinical efficacy to date. The goal of this research was to use a rat model of skeletal muscle injury to examine the differential effects of age on MPC survival, differentiation, and tissue regeneration after transplantation. Fluorescently labeled MPCs, derived from young (YMPCs) and adult (AMPCs) donor rats, were transplanted in the injured tibialis anterior (TA) muscles of young, adult, and aged rats. Our results demonstrated that integration and maturation of YMPCs into mature myofibers were dependent on the age of the host microenvironment; whereas, the integration and maturation of AMPCs were less dependent on age and more dependent on intrinsic cellular changes. These data suggest that the age of both the host microenvironment and cells for transplantation must be considered when designing cell therapy regimens.

摘要

肌肉减少症是指由于年龄增长导致的骨骼肌质量和功能丧失，是老年人残疾的主要原因。肌肉减少症发病的相关因素尚未明确，但似乎与组织微环境和肌肉祖细胞（MPC）群体的年龄相关变化有关。MPC 移植有可能成为治疗衰老或损伤引起的肌肉功能障碍的一种新疗法，但迄今为止尚未显示出显著的临床疗效。本研究的目的是使用骨骼肌损伤大鼠模型，研究年龄对 MPC 移植后存活、分化和组织再生的差异影响。源自年轻（YMPC）和成年（AMPC）供体大鼠的荧光标记 MPC 被移植到年轻、成年和老年大鼠的损伤性比目鱼肌（TA）中。我们的结果表明，YMPC 整合并成熟为成熟肌纤维取决于宿主微环境的年龄；而 AMPC 的整合和成熟则较少依赖于年龄，更多地依赖于内在的细胞变化。这些数据表明，在设计细胞治疗方案时，必须考虑宿主微环境和移植细胞的年龄。

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