Engineering a 3D in vitro model of human skeletal muscle at the single fiber scale

doi:10.1371/journal.pone.0232081

KMS > 免疫化学研究所 > 特聘教授组 > Nicola Elvassore组

	Engineering a 3D in vitro model of human skeletal muscle at the single fiber scale
	Urciuolo, Anna 1,2,3; Serena, Elena 1,2; Ghua, Rusha 4; Zatti, Susi 1,2; Giomo, Monica 1,2; Mattei, Nicolo 1,2; Vetralla, Massimo 1,2; Selmin, Giulia 1; Luni, Camilla5 ; Vitulo, Nicola 6; Valle, Giorgio 4; Vitiello, Libero 4,7; Elvassore, Nicola1,2,5,8
	2020-05-06
发表期刊	PLOS ONE (IF:2.9[JCR-2023],3.3[5-Year])
ISSN	1932-6203
卷号	15 期号:5
发表状态	已发表
DOI	10.1371/journal.pone.0232081
摘要	The reproduction of reliable in vitro models of human skeletal muscle is made harder by the intrinsic 3D structural complexity of this tissue. Here we coupled engineered hydrogel with 3D structural cues and specific mechanical properties to derive human 3D muscle constructs ("myobundles") at the scale of single fibers, by using primary myoblasts or myoblasts derived from embryonic stem cells. To this aim, cell culture was performed in confined, laminin-coated micrometric channels obtained inside a 3D hydrogel characterized by the optimal stiffness for skeletal muscle myogenesis. Primary myoblasts cultured in our 3D culture system were able to undergo myotube differentiation and maturation, as demonstrated by the proper expression and localization of key components of the sarcomere and sarcolemma. Such approach allowed the generation of human myobundles of similar to 10 mm in length and similar to 120 mu m in diameter, showing spontaneous contraction 7 days after cell seeding. Transcriptome analyses showed higher similarity between 3D myobundles and skeletal signature, compared to that found between 2D myotubes and skeletal muscle, mainly resulting from expression in 3D myobundles of categories of genes involved in skeletal muscle maturation, including extracellular matrix organization. Moreover, imaging analyses confirmed that structured 3D culture system was conducive to differentiation/maturation also when using myoblasts derived from embryonic stem cells. In conclusion, our structured 3D model is a promising tool for modelling human skeletal muscle in healthy and diseases conditions.
URL	查看原文
收录类别	SCI ; SCIE
语种	英语
资助项目	Oak Foundation[W1095/OCAY-14-191] ; STARS Starting Grant 2017[LS3-19613]
WOS研究方向	Science & Technology - Other Topics
WOS类目	Multidisciplinary Sciences
WOS记录号	WOS:000537283500019
出版者	PUBLIC LIBRARY SCIENCE
WOS关键词	MYOGENESIS ; INJURY ; REPAIR ; BIOMATERIALS ; HYDROGELS ; LAMININ ; VIVO
原始文献类型	Article
引用统计	正在获取...
文献类型	期刊论文
条目标识符	https://kms.shanghaitech.edu.cn/handle/2MSLDSTB/121628
专题	免疫化学研究所_特聘教授组_生物工程学实验室
通讯作者	Vitiello, Libero; Elvassore, Nicola
作者单位	1.Univ Padua, Ind Engn Dept, Padua, Italy 2.Venetian Inst Mol Med, Padua, Italy 3.Univ Padua, Womens & Childrens Hlth Dept, Padua, Italy 4.Univ Padua, Dept Biol, Padua, Italy 5.ShanghaiTech Univ, Shanghai Inst Adv Immunochem Studies, Shanghai, Peoples R China 6.Univ Verona, Dept Biotechnol, Verona, Italy 7.Interuniv Inst Myol IIM, Assisi, Italy 8.Univ Coll London ICH, London, England
通讯作者单位	免疫化学研究所
推荐引用方式 GB/T 7714	Urciuolo, Anna,Serena, Elena,Ghua, Rusha,et al. Engineering a 3D in vitro model of human skeletal muscle at the single fiber scale[J]. PLOS ONE,2020,15(5).
APA	Urciuolo, Anna.,Serena, Elena.,Ghua, Rusha.,Zatti, Susi.,Giomo, Monica.,...&Elvassore, Nicola.(2020).Engineering a 3D in vitro model of human skeletal muscle at the single fiber scale.PLOS ONE,15(5).
MLA	Urciuolo, Anna,et al."Engineering a 3D in vitro model of human skeletal muscle at the single fiber scale".PLOS ONE 15.5(2020).