Construction and myogenic differentiation of 3D myoblast tissues fabricated by fibronectin-gelatin nanofilm coating

Construction and myogenic differentiation of 3D myoblast tissues fabricated by fibronectin-gelatin nanofilm coating

In this study, we used a recently developed approach of coating the cells with fibronectin-gelatin nanofilms to build 3D skeletal muscle tissue models. We constructed the microtissues from C2C12 myoblasts and subsequently differentiated them to form muscle-like tissue. The thickness of the construct...

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Veröffentlicht in:Biochemical and biophysical research communications 2016-06, Vol.474 (3), p.515-521
Hauptverfasser: Gribova, Varvara, Liu, Chun-Yen, Nishiguchi, Akihiro, Matsusaki, Michiya, Boudou, Thomas, Picart, Catherine, Akashi, Mitsuru
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Batch Cell Culture Techniques
Biotechnology
Cell Differentiation - physiology
Cell Line
Cells, Cultured
Coated Materials, Biocompatible - chemistry
Extracellular matrix
Extracellular Matrix - chemistry
Fibronectins - chemistry
Gelatin - chemistry
Layer-by-layer
Life Sciences
Materials Testing
Mice
Muscle Development - physiology
Myoblasts, Skeletal - cytology
Myoblasts, Skeletal - physiology
Myogenesis
Nanostructures - chemistry
Organ Culture Techniques - methods
Printing, Three-Dimensional
Tissue engineering
Tissue Engineering - methods
Tissue Scaffolds
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Zusammenfassung:In this study, we used a recently developed approach of coating the cells with fibronectin-gelatin nanofilms to build 3D skeletal muscle tissue models. We constructed the microtissues from C2C12 myoblasts and subsequently differentiated them to form muscle-like tissue. The thickness of the constructs could be successfully controlled by altering the number of seeded cells. We were able to build up to ∼76 μm thick 3D constructs that formed multinucleated myotubes. We also found that Rho-kinase inhibitor Y27632 improved myotube formation in thick constructs. Our approach makes it possible to rapidly form 3D muscle tissues and is promising for the in vitro construction of physiologically relevant human skeletal muscle tissue models.
ISSN:0006-291X
1090-2104
DOI:10.1016/j.bbrc.2016.04.130