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Hydrogels with tunable stress relaxation regulate stem cell fate and activity

by Chaudhuri, Ovijit , Huebsch, Nathaniel , Duda, Georg N. , Darnell, Max , Gu, Luo , Lee, Hong-pyo , Mooney, David J. , Klumpers, Darinka , Lippens, Evi , Bencherif, Sidi A. , Weaver, James C.

in 639/166/985 / 639/166/988 / 639/301/54/2295 / 639/301/923/1027 / Adhesion / Alginates - chemistry / Biomaterials / Biomechanical Phenomena / Biomedical materials / Cell Culture Techniques / Cell Differentiation / Condensed Matter Physics / Culture / Density / Elastic modulus / Extracellular Matrix / Glucuronic Acid - chemistry / Hexuronic Acids - chemistry / Humans / Hydrogels / Materials Science / Mesenchymal Stem Cells - physiology / Nanotechnology / Optical and Electronic Materials / Stem cells / Stress / Stress relaxation / Stress, Mechanical / Three dimensional

2016

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Hydrogels with tunable stress relaxation regulate stem cell fate and activity

by Chaudhuri, Ovijit , Huebsch, Nathaniel , Duda, Georg N. , Darnell, Max , Gu, Luo , Lee, Hong-pyo , Mooney, David J. , Klumpers, Darinka , Lippens, Evi , Bencherif, Sidi A. , Weaver, James C.

2016

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Hydrogels with tunable stress relaxation regulate stem cell fate and activity

by Chaudhuri, Ovijit , Huebsch, Nathaniel , Duda, Georg N. , Darnell, Max , Gu, Luo , Lee, Hong-pyo , Mooney, David J. , Klumpers, Darinka , Lippens, Evi , Bencherif, Sidi A. , Weaver, James C.

2016

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Journal Article

Hydrogels with tunable stress relaxation regulate stem cell fate and activity

Chaudhuri, Ovijit,

Huebsch, Nathaniel,

Duda, Georg N.,

Darnell, Max,

Gu, Luo,

Lee, Hong-pyo,

Mooney, David J.,

Klumpers, Darinka,

Lippens, Evi,

Bencherif, Sidi A.,

Weaver, James C.

2016

Overview

Natural extracellular matrices (ECMs) are viscoelastic and exhibit stress relaxation. However, hydrogels used as synthetic ECMs for three-dimensional (3D) culture are typically elastic. Here, we report a materials approach to tune the rate of stress relaxation of hydrogels for 3D culture, independently of the hydrogel’s initial elastic modulus, degradation, and cell-adhesion-ligand density. We find that cell spreading, proliferation, and osteogenic differentiation of mesenchymal stem cells (MSCs) are all enhanced in cells cultured in gels with faster relaxation. Strikingly, MSCs form a mineralized, collagen-1-rich matrix similar to bone in rapidly relaxing hydrogels with an initial elastic modulus of 17 kPa. We also show that the effects of stress relaxation are mediated by adhesion-ligand binding, actomyosin contractility and mechanical clustering of adhesion ligands. Our findings highlight stress relaxation as a key characteristic of cell–ECM interactions and as an important design parameter of biomaterials for cell culture. Hydrogels with faster stress relaxation enhance the spreading, proliferation, and osteogenic differentiation of embedded mesenchymal stem cells.

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Publisher

Nature Publishing Group UK,Nature Publishing Group

Subject

/ Alginates - chemistry

/ Biomaterials