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  • Cellular response to substrate rigidity is governed by either stress or strain.

Cellular response to substrate rigidity is governed by either stress or strain.

Biophysical journal (2013-01-22)
Ai Kia Yip, Katsuhiko Iwasaki, Chaitanya Ursekar, Hiroaki Machiyama, Mayur Saxena, Huiling Chen, Ichiro Harada, Keng-Hwee Chiam, Yasuhiro Sawada
ABSTRACT

Cells sense the rigidity of their substrate; however, little is known about the physical variables that determine their response to this rigidity. Here, we report traction stress measurements carried out using fibroblasts on polyacrylamide gels with Young's moduli ranging from 6 to 110 kPa. We prepared the substrates by employing a modified method that involves N-acryloyl-6-aminocaproic acid (ACA). ACA allows for covalent binding between proteins and elastomers and thus introduces a more stable immobilization of collagen onto the substrate when compared to the conventional method of using sulfo-succinimidyl-6-(4-azido-2-nitrophenyl-amino) hexanoate (sulfo-SANPAH). Cells remove extracellular matrix proteins off the surface of gels coated using sulfo-SANPAH, which corresponds to lower values of traction stress and substrate deformation compared to gels coated using ACA. On soft ACA gels (Young's modulus <20 kPa), cell-exerted substrate deformation remains constant, independent of the substrate Young's modulus. In contrast, on stiff substrates (Young's modulus >20 kPa), traction stress plateaus at a limiting value and the substrate deformation decreases with increasing substrate rigidity. Sustained substrate strain on soft substrates and sustained traction stress on stiff substrates suggest these may be factors governing cellular responses to substrate rigidity.

MATERIALS
Product Number
Brand
Product Description

Supelco
Aminocaproic acid, Pharmaceutical Secondary Standard; Certified Reference Material
Sigma-Aldrich
6-Aminocaproic acid, BioUltra, ≥99%
Sigma-Aldrich
6-Aminocaproic acid, ≥99% (titration), powder
Sigma-Aldrich
6-Aminohexanoic acid, ≥98.5% (NT)