Issue 46, 2014

Measuring cellular forces using bis-aliphatic hydrazone crosslinked stress-relaxing hydrogels

Abstract

Studies focused on understanding the role of matrix biophysical signals on cells, especially those when cells are encapsulated in hydrogels that are locally remodelled, are often complicated by appropriate methods to measure differences between the bulk and local material properties. From this perspective, stress-relaxing materials that allow long-term culture of embedded cells provide an opportunity to elucidate aspects of this biophysical signalling. In particular, rheological characterization of the stress relaxation properties allows one to link a bulk material measurement to local aspects of cellular functions by quantifying the corresponding cellular forces that must be applied locally. Here, embryonic stem cell-derived motor neurons were encapsulated in a well-characterized covalently adaptable bis-aliphatic hydrazone crosslinked PEG hydrogel, and neurite outgrowth was observed over time. Using fundamental physical relationships describing classical mechanics and viscoelastic materials, we calculated the forces and energies involved in neurite extension, the results of which provide insight to the role of biophysical cues on this process.

Graphical abstract: Measuring cellular forces using bis-aliphatic hydrazone crosslinked stress-relaxing hydrogels

Supplementary files

Article information

Article type
Paper
Submitted
24 Jun 2014
Accepted
18 Sep 2014
First published
18 Sep 2014
This article is Open Access
Creative Commons BY license

Soft Matter, 2014,10, 9230-9236

Author version available

Measuring cellular forces using bis-aliphatic hydrazone crosslinked stress-relaxing hydrogels

D. D. McKinnon, D. W. Domaille, T. E. Brown, K. A. Kyburz, E. Kiyotake, J. N. Cha and K. S. Anseth, Soft Matter, 2014, 10, 9230 DOI: 10.1039/C4SM01365D

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