Skeletal muscle regeneration via the chemical induction and expansion of myogenic stem cells in situ or in vitro

被引:0
|
作者
Jun Fang
Junren Sia
Jennifer Soto
Pingping Wang
LeeAnn K. Li
Yuan-Yu Hsueh
Raymond Sun
Kym Francis Faull
James G. Tidball
Song Li
机构
[1] University of California,Department of Bioengineering
[2] Los Angeles,Department of Medicine
[3] University of California,Department of Bioengineering
[4] Los Angeles,Beijing Key Laboratory of Bioelectromagnetism, Institute of Electrical Engineering
[5] University of California,David Geffen School of Medicine
[6] Berkeley,Division of Plastic Surgery, Department of Surgery
[7] Chinese Academy of Sciences,Department of Psychiatry and Biobehavioral Sciences, David Geffen School of Medicine
[8] University of California,Pasarow Mass Spectrometry Laboratory, Jane and Terry Semel Institute for Neuroscience and Human Behavior
[9] Los Angeles,Department of Integrative Biology and Physiology
[10] National Cheng Kung University Hospital,Molecular, Cellular & Integrative Physiology Program
[11] College of Medicine,Department of Pathology and Laboratory Medicine, David Geffen School of Medicine
[12] National Cheng Kung University,undefined
[13] University of California,undefined
[14] Los Angeles,undefined
[15] University of California,undefined
[16] Los Angeles,undefined
[17] University of California,undefined
[18] Los Angeles,undefined
[19] University of California,undefined
[20] Los Angeles,undefined
[21] University of California,undefined
[22] Los Angeles,undefined
来源
Nature Biomedical Engineering | 2021年 / 5卷
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摘要
Muscle loss and impairment resulting from traumatic injury can be alleviated by therapies using muscle stem cells. However, collecting sufficient numbers of autologous myogenic stem cells and expanding them efficiently has been challenging. Here we show that myogenic stem cells (predominantly Pax7+ cells)—which were selectively expanded from readily obtainable dermal fibroblasts or skeletal muscle stem cells using a specific cocktail of small molecules and transplanted into muscle injuries in adult, aged or dystrophic mice—led to functional muscle regeneration in the three animal models. We also show that sustained release of the small-molecule cocktail in situ through polymer nanoparticles led to muscle repair by inducing robust activation and expansion of resident satellite cells. Chemically induced stem cell expansion in vitro and in situ may prove to be advantageous for stem cell therapies that aim to regenerate skeletal muscle and other tissues.
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页码:864 / 879
页数:15
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