Combining experiments and in silico modeling to infer the role of adhesion and proliferation on the collective dynamics of cells

Hygor P. M. Melo; F. Raquel Maia; André S. Nunes; Rui L Reis; Joaquím M. Oliveira; N. A. M. Araújo

doi:10.1038/s41598-021-99390-x

Abstract

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The collective dynamics of cells on surfaces and interfaces poses technological and theoretical challenges in the study of morphogenesis, tissue engineering, and cancer. Different mechanisms are at play, including, cell-cell adhesion, cell motility, and proliferation. However, the relative importance of each one is elusive. Here, experiments with a culture of glioblastoma multiforme cells on a substrate are combined with in silico modeling to infer the rate of each mechanism. By parametrizing these rates, the time-dependence of the spatial correlation observed experimentally is reproduced. The obtained results suggest a reduction in cell-cell adhesion with the density of cells. The reason for such reduction and possible implications for the collective dynamics of cancer cells are discussed.

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Combining experiments and in silico modeling to infer the role of adhesion and proliferation on the collective dynamics of cells

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Related publications

Combining experiments and in silico modeling to infer the role of adhesion and proliferation on the collective dynamics of cells

Discovery of Salermide-Related Sirtuin Inhibitors: Binding Mode Studies and Antiproliferative Effects in Cancer Cells Including Cancer Stem Cells

PB1705: THE HISTONE MODIFIER SETD6 IS EPIGENETICALLY REGULATED IN B-CELL ACUTE LYMPHOBLASTIC LEUKEMIA AND INTERFERES WITH PROLIFERATION AND GENE EXPRESSION

Influence of Molecular Weight and Crystallinity of Poly(L-Lactic Acid) on the Adhesion and Proliferation of Human Osteoblast Like Cells

ITIH5 mediates epigenetic reprogramming of breast cancer cells