Double power-law viscoelastic relaxation of living cells encodes motility trends

Double power-law viscoelastic relaxation of living cells encodes motility trends

August, 4th 2023

Jeanlex Soares de Sousa is Adjunct professor in the Physics Department of Universidade Federal do Ceará and his current research interests are electronic and optical properties of nanostructures, molecular electronics, quantum device modeling, and bio-nanotechnology. Jeanlex is one of the authors of the article “Double power-law viscoelastic relaxation of living cells encodes motility trends”, published in Sci Rep 10, in 2020.

Abstract: Living cells are constantly exchanging momentum with their surroundings. So far, there is no consensus regarding how cells respond to such external stimuli, although it reveals much about their internal structures, motility as well as the emergence of disorders. Here, we report that twelve cell lines, ranging from healthy fibroblasts to cancer cells, hold a ubiquitous double power-law viscoelastic relaxation compatible with the fractional Kelvin-Voigt viscoelastic model. Atomic Force Microscopy measurements in time domain were employed to determine the mechanical parameters, namely, the fast and slow relaxation exponents, the crossover timescale between power law regimes, and the cell stiffness. These cell-dependent quantities show strong correlation with their collective migration and invasiveness properties. Beyond that, the crossover timescale sets the fastest timescale for cells to perform their biological functions.

Authors: JS De Sousa, RS Freire, FD Sousa, M Radmacher, AFB Silva, MV Ramos, ACO Monteiro-Moreira, FP Mesquita, MEA Moraes, RC Montenegro, CLN Oliveira.

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