骨骼肌驻留祖细胞共表达间充质和成肌标志物，且不受慢性心力衰竭诱导的失调影响。

Skeletal Muscle Resident Progenitor Cells Coexpress Mesenchymal and Myogenic Markers and Are Not Affected by Chronic Heart Failure-Induced Dysregulations.

作者信息

Dmitrieva R I, Lelyavina T A, Komarova M Y, Galenko V L, Ivanova O A, Tikanova P A, Khromova N V, Golovkin A S, Bortsova M A, Sergushichev A, Sitnikova M Yu, Kostareva A A

机构信息

Institute of Molecular Biology and Genetics, National Almazov Medical Research Centre, Saint Petersburg, Russia.

Heart Failure Department, National Almazov Medical Research Centre, Saint Petersburg, Russia.

出版信息

Stem Cells Int. 2019 Jan 3;2019:5690345. doi: 10.1155/2019/5690345. eCollection 2019.

DOI:10.1155/2019/5690345

PMID:30719048

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6335669/

Abstract

BACKGROUND AND PURPOSE

In heart failure (HF), metabolic alterations induce skeletal muscle wasting and decrease of exercise capacity and quality of life. The activation of skeletal muscle regeneration potential is a prospective strategy to reduce muscle wasting; therefore, the aim of this project was to determine if functional properties of skeletal muscle mesenchymal progenitor cells (SM-MPC) were affected by HF-induced functional and metabolic dysregulations.

METHODS

Gastrocnemius muscle biopsy samples were obtained from 3 healthy donors (HD) and 12 HF patients to purify mRNA for further analysis and to isolate SM-MPC. Cells were expanded in vitro and characterized by immunocytochemistry and flow cytometry for expression of mesenchymal (CD105/CD73/CD166/CD146/CD140b/CD140a/VIM) and myogenic (Myf5/CD56/MyoG) markers. Cells were induced to differentiate and were then analyzed by immunostaining and Q-PCR to verify the efficiency of differentiation. The expression of genes that control muscle metabolism and development was compared for HD/HF patients in both muscle biopsy and in vitro-differentiated myotubes.

RESULTS

The upregulation of MYH3/MYH8/Myf6 detected in HF skeletal muscle along with metabolic alterations indicates chronic pathological activation of the muscle developmental program. SM-MPC isolated from HD and HF patients represented a mixed population that coexpresses both mesenchymal and myogenic markers and differs from AD-MMSC, BM-MMSC, and IMF-MSC. The functional properties of SM-MPC did not differ between HD and HF patients.

CONCLUSION

In the present work, we demonstrate that the metabolic and functional alterations we detected in skeletal muscle from HF patients do not dramatically affect the functional properties of purified and expanded in vitro SM-MPC. We speculate that skeletal muscle progenitor cells are protected by their niche and under beneficial circumstances could contribute to muscle restoration and prevention and treatment of muscle wasting. The potential new therapeutic strategies of HF-induced skeletal muscle wasting should be targeted on both activation of SM-MPC regeneration potential and improvement of skeletal muscle metabolic status to provide a favorable environment for SM-MPC-driven muscle restoration.

摘要

背景与目的

在心力衰竭（HF）中，代谢改变会导致骨骼肌萎缩，并降低运动能力和生活质量。激活骨骼肌再生潜能是减少肌肉萎缩的一种前瞻性策略；因此，本项目的目的是确定骨骼肌间充质祖细胞（SM-MPC）的功能特性是否受到HF诱导的功能和代谢失调的影响。

方法

从3名健康供体（HD）和12名HF患者获取腓肠肌活检样本，以纯化mRNA用于进一步分析，并分离SM-MPC。细胞在体外扩增，并通过免疫细胞化学和流式细胞术对间充质（CD105/CD73/CD166/CD146/CD140b/CD140a/VIM）和生肌（Myf5/CD56/MyoG）标志物的表达进行表征。诱导细胞分化，然后通过免疫染色和Q-PCR分析以验证分化效率。比较HD/HF患者在肌肉活检和体外分化的肌管中控制肌肉代谢和发育的基因表达。

结果

在HF骨骼肌中检测到的MYH3/MYH8/Myf6上调以及代谢改变表明肌肉发育程序的慢性病理激活。从HD和HF患者分离的SM-MPC代表了一个混合群体，其同时共表达间充质和成肌标志物，且不同于脂肪来源的间充质干细胞（AD-MMSC）、骨髓间充质干细胞（BM-MMSC）和肌内脂肪组织来源的间充质干细胞（IMF-MSC）。HD和HF患者之间SM-MPC的功能特性没有差异。

结论

在本研究中，我们证明了在HF患者骨骼肌中检测到的代谢和功能改变并未显著影响体外纯化和扩增的SM-MPC的功能特性。我们推测骨骼肌祖细胞受到其微环境的保护，在有利情况下可能有助于肌肉修复以及预防和治疗肌肉萎缩。HF诱导的骨骼肌萎缩的潜在新治疗策略应同时针对激活SM-MPC的再生潜能和改善骨骼肌代谢状态，为SM-MPC驱动的肌肉修复提供有利环境。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1d64/6335669/a435f64097c3/SCI2019-5690345.001.jpg

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骨骼肌驻留祖细胞共表达间充质和成肌标志物，且不受慢性心力衰竭诱导的失调影响。

Skeletal Muscle Resident Progenitor Cells Coexpress Mesenchymal and Myogenic Markers and Are Not Affected by Chronic Heart Failure-Induced Dysregulations.

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BACKGROUND AND PURPOSE

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