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Extracellular matrix stiffness negatively affects axon elongation, growth cone area and F-actin levels in a collagen type I 3D culture

Martínez, Gaby F et al · John Wiley & Sons Ltd · 2021

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Three dimensional (3D) in vitro neuronal cultures can better reproduce physiologically relevant phenotypes compared to 2D-cultures, because in vivo neurons reside in a 3D microenvironment. Interest in neuronal 3D cultures is emerging, with special attention to the mechanical forces that regulate axon elongation and sprouting in three dimensions. Type I collagen (Col-I) is a native substrate since it is present in the extracellular matrix and hence emulates an in vivo environment to study axon growth. The impact of its mechanical properties needs to be further investigated. Here, we generated Col-I 3D matrices of different mechanical stiffness and evaluated axon growth in three dimensions. Superior cervical ganglion (SCG) explants from neonatal rats were cultured in soft and stiff Col-I 3D matrices and neurite outgrowth was assessed by measuring: maximum neuritic extent; neuritic halo area and fasciculation. Axonal cytoskeletal proteins were examined. Axon elongation in stiff Col-I 3D matrices was reduced (31%) following 24 h in culture compared to soft matrices. In stiff matrices, neurites fasciculated and formed less dense halos. Consistently, almost no F-actin rich growth cones were recognized, and F-actin staining was strongly reduced in the axonal compartment. This study shows that stiffness negatively affects 3D neurite outgrowth and adds insights on the cytoskeletal responses upon mechanic interactions of axons with a 3D environment. Our data will serve to facilitate the development of model systems that are mechanically well-behaved but still mimic key physiologic properties observed in vivo. Fil: Martínez, Gaby F. Instituto de Investigaciones Biológicas "Clemente Estable"; Uruguay Fil: Fagetti, Jimena. Instituto de Investigaciones Biológicas "Clemente Estable"; Uruguay

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APA 7

Martínez, G. F. E. A. (2021). Extracellular matrix stiffness negatively affects axon elongation, growth cone area and F-actin levels in a collagen type I 3D culture. http://hdl.handle.net/11336/168721

MLA

Martínez, Gaby F et al. "Extracellular matrix stiffness negatively affects axon elongation, growth cone area and F-actin levels in a collagen type I 3D culture." 2021. http://hdl.handle.net/11336/168721.

Chicago

Martínez, Gaby F et al. 2021. "Extracellular matrix stiffness negatively affects axon elongation, growth cone area and F-actin levels in a collagen type I 3D culture.". http://hdl.handle.net/11336/168721.

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Martínez, G. F. E. A. 2021, Extracellular matrix stiffness negatively affects axon elongation, growth cone area and F-actin levels in a collagen type I 3D culture, John Wiley & Sons Ltd, available at: http://hdl.handle.net/11336/168721 [Accessed 29 Jun. 2026].

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Título
Extracellular matrix stiffness negatively affects axon elongation, growth cone area and F-actin levels in a collagen type I 3D culture
Autor / colaboradores
Martínez, Gaby F et al
Editorial
John Wiley & Sons Ltd
Año de publicación
2021
ISSN
1932-6254
ISSN
1932-6254
Idioma
eng

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