Studying the impact of geometrical and cellular cues on myogenesis with a skeletal muscle-on-chip

In the skeletal muscle tissue, cells are organized following an anisotropic architecture, which is both required during myogenesis when muscle precursor cells fuse to generate myotubes and for its contractile function. To build an skeletal muscle tissue, it is therefore essential to develop methods...

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Bibliographic Details
Published in:Lab on a chip 2024-08, Vol.24 (17), p.4147-4160
Main Authors: Nguyen, M-L, Demri, N, Lapin, B, Di Federico, F, Gropplero, G, Cayrac, F, Hennig, K, Gomes, Edgar R, Wilhelm, C, Roman, W, Descroix, S
Format: Article
Language:English
Subjects:
Collagen
In vitro methods and tests
Maturation
Muscles
Musculoskeletal system
Myogenesis
Precursors
Striations
Tubes
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Summary:In the skeletal muscle tissue, cells are organized following an anisotropic architecture, which is both required during myogenesis when muscle precursor cells fuse to generate myotubes and for its contractile function. To build an skeletal muscle tissue, it is therefore essential to develop methods to organize cells in an anisotropic fashion, which can be particularly challenging, especially in 3D. In this study, we present a versatile muscle-on-chip system with adjustable collagen hollow tubes that can be seeded with muscle precursor cells. The collagen acts both as a tube-shaped hollow mold and as an extracellular matrix scaffold that can house other cell types for co-culture. We found that the diameter of the channel affects the organization of the muscle cells and that proper myogenesis was obtained at a diameter of 75 μm. In these conditions, muscle precursor cells fused into long myotubes aligned along these collagen channels, resulting in a fascicle-like structure. These myotubes exhibited actin striations and upregulation of multiple myogenic genes, reflecting their maturation Moreover, we showed that our chip allowed muscle tissue culture and maturation over a month, with the possibility of fibroblast co-culture embedding in the collagen matrix.
ISSN:1473-0197
1473-0189
1473-0189
DOI:10.1039/d4lc00417e