Myogenic differentiation of human myoblasts and Mesenchymal stromal cells under GDF11 on NPoly-ɛ-caprolactone-collagen I-Polyethylene-nanofibers.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-05-15 DOI:10.1186/s12860-023-00478-1
Aijia Cai, Paul Schneider, Zeng-Ming Zheng, Justus P Beier, Marcus Himmler, Dirk W Schubert, Volker Weisbach, Raymund E Horch, Andreas Arkudas
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Abstract

Background: For the purpose of skeletal muscle engineering, primary myoblasts (Mb) and adipogenic mesenchymal stem cells (ADSC) can be co-cultured and myogenically differentiated. Electrospun composite nanofiber scaffolds represent suitable matrices for tissue engineering of skeletal muscle, combining both biocompatibility and stability Although growth differentiation factor 11 (GDF11) has been proposed as a rejuvenating circulating factor, restoring skeletal muscle function in aging mice, some studies have also described a harming effect of GDF11. Therefore, the aim of the study was to analyze the effect of GDF11 on co-cultures of Mb and ADSC on poly-ε-caprolactone (PCL)-collagen I-polyethylene oxide (PEO)-nanofibers.

Results: Human Mb were co-cultured with ADSC two-dimensionally (2D) as monolayers or three-dimensionally (3D) on aligned PCL-collagen I-PEO-nanofibers. Differentiation media were either serum-free with or without GDF11, or serum containing as in a conventional differentiation medium. Cell viability was higher after conventional myogenic differentiation compared to serum-free and serum-free + GDF11 differentiation as was creatine kinase activity. Immunofluorescence staining showed myosine heavy chain expression in all groups after 28 days of differentiation without any clear evidence of more or less pronounced expression in either group. Gene expression of myosine heavy chain (MYH2) increased after serum-free + GDF11 stimulation compared to serum-free stimulation alone.

Conclusions: This is the first study analyzing the effect of GDF11 on myogenic differentiation of Mb and ADSC co-cultures under serum-free conditions. The results of this study show that PCL-collagen I-PEO-nanofibers represent a suitable matrix for 3D myogenic differentiation of Mb and ADSC. In this context, GDF11 seems to promote myogenic differentiation of Mb and ADSC co-cultures compared to serum-free differentiation without any evidence of a harming effect.

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GDF11作用下人成肌细胞和间充质间质细胞在NPoly- α -己内酯- i -聚乙烯-纳米纤维上的成肌分化
背景:以骨骼肌工程为目的,可以将原代成肌细胞(Mb)与脂肪源间充质干细胞(ADSC)共培养并进行成肌分化。虽然生长分化因子11 (growth differentiation factor 11, GDF11)被认为是一种能恢复衰老小鼠骨骼肌功能的再生循环因子,但一些研究也描述了GDF11的危害作用。因此,本研究的目的是分析GDF11对Mb和ADSC对聚-ε-己内酯(PCL)-胶原-聚氧聚乙烯(PEO)-纳米纤维共培养的影响。结果:人Mb与ADSC在排列的pcl -胶原i - peo -纳米纤维上以二维(2D)单层或三维(3D)共培养。分化培养基要么不含GDF11,要么不含GDF11,或者像传统分化培养基一样含有血清。与无血清和无血清+ GDF11分化相比,常规肌源性分化后的细胞活力更高,肌酸激酶活性也更高。分化28天后,免疫荧光染色显示各组均有肌甘氨酸重链表达,未见明显差异。与单纯无血清刺激相比,无血清+ GDF11刺激后肌氨酸重链(MYH2)基因表达增加。结论:这是首次在无血清条件下分析GDF11对Mb和ADSC共培养肌分化影响的研究。本研究结果表明,pcl -胶原i - peo -纳米纤维是Mb和ADSC三维肌源性分化的合适基质。在这种情况下,与无血清分化相比,GDF11似乎促进了Mb和ADSC共培养的肌源性分化,但没有任何有害作用的证据。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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