Issue 38, 2021
From the journal:

Nanoscale

The viscoelasticity of adherent cells follows a single power-law with distinct local variations within a single cell and across cell lines

Juan G. Sanchez, ORCID logo a   Francisco M. Espinosa,a   Ruben Miguez ORCID logo a  and  Ricardo Garcia ORCID logo *a  

* Corresponding authors

a Instituto de Ciencia de Materiales de Madrid, CSIC, c/Sor Juana Inés de la Cruz 3, 28049 Madrid, Spain
E-mail: r.garcia@csic.es

Abstract

AFM-based force–distance curves are commonly used to characterize the nanomechanical properties of live cells. The transformation of these curves into nanomechanical properties requires the development of contact mechanics models. Spatially-resolved force–distance curves involving 1 to 2 μm deformations were obtained on HeLa and NIH 3T3 (fibroblast) cells. An elastic and two viscoelastic models were used to describe the experimental force–distance curves. The best agreement was obtained by applying a contact mechanics model that accounts for the geometry of the contact and the finite-thickness of the cell and assumes a single power-law dependence with time. Our findings show the shortcomings of elastic and semi-infinite viscoelastic models to characterize the mechanical response of a mammalian cell under micrometer-scale deformations. The parameters of the 3D power-law viscoelastic model, compressive modulus and fluidity exponent showed local variations within a single cell and across the two cell lines. The corresponding nanomechanical maps revealed structures that were not visible in the AFM topographic maps.

Graphical abstract: The viscoelasticity of adherent cells follows a single power-law with distinct local variations within a single cell and across cell lines

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Article information

DOI
https://doi.org/10.1039/D1NR03894J
Article type
Paper
Submitted
16 Jun 2021
Accepted
01 Sep 2021
First published
28 Sep 2021
This article is Open Access
Creative Commons BY-NC license

Nanoscale, 2021,13, 16339-16348

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The viscoelasticity of adherent cells follows a single power-law with distinct local variations within a single cell and across cell lines

J. G. Sanchez, F. M. Espinosa, R. Miguez and R. Garcia, Nanoscale, 2021, 13, 16339 DOI: 10.1039/D1NR03894J

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