从细胞-细胞外基质力和粘着斑动力学解释细胞形状与硬度趋化性

Cell Shape and Durotaxis Explained from Cell-Extracellular Matrix Forces and Focal Adhesion Dynamics.

作者信息

Rens Elisabeth G, Merks Roeland M H

机构信息

Scientific Computing, CWI, Science Park 123, 1098 XG Amsterdam, the Netherlands.

Mathematics Department, University of British Columbia, Mathematics Road 1984, Vancouver, BC V6T 1Z2, Canada.

出版信息

iScience. 2020 Aug 22;23(9):101488. doi: 10.1016/j.isci.2020.101488. eCollection 2020 Sep 25.

DOI:10.1016/j.isci.2020.101488

PMID:32896767

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7482025/

Abstract

Many cells are small and rounded on soft extracellular matrices (ECM), elongated on stiffer ECMs, and flattened on hard ECMs. Cells also migrate up stiffness gradients (durotaxis). Using a hybrid cellular Potts and finite-element model extended with ODE-based models of focal adhesion (FA) turnover, we show that the full range of cell shape and durotaxis can be explained in unison from dynamics of FAs, in contrast to previous mathematical models. In our 2D cell-shape model, FAs grow due to cell traction forces. Forces develop faster on stiff ECMs, causing FAs to stabilize and, consequently, cells to spread on stiff ECMs. If ECM stress further stabilizes FAs, cells elongate on substrates of intermediate stiffness. We show that durotaxis follows from the same set of assumptions. Our model contributes to the understanding of the basic responses of cells to ECM stiffness, paving the way for future modeling of more complex cell-ECM interactions.

摘要

许多细胞在柔软的细胞外基质（ECM）上呈小而圆的形状，在较硬的ECM上呈细长形，而在坚硬的ECM上则扁平。细胞也会沿着硬度梯度迁移（趋硬性）。我们使用一个结合了细胞Potts模型和有限元模型，并扩展了基于常微分方程的粘着斑（FA）周转模型，结果表明，与之前的数学模型不同，FA的动力学可以统一解释细胞形状和趋硬性的所有变化。在我们的二维细胞形状模型中，FA因细胞牵引力而生长。在坚硬的ECM上，力产生得更快，导致FA稳定，进而使细胞在坚硬的ECM上铺展。如果ECM应力进一步使FA稳定，细胞会在中等硬度的基质上伸长。我们表明趋硬性也遵循同一组假设。我们的模型有助于理解细胞对ECM硬度的基本反应，为未来更复杂的细胞 - ECM相互作用建模铺平了道路。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f0cc/7482025/0f9a0259ae7b/fx1.jpg

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从细胞-细胞外基质力和粘着斑动力学解释细胞形状与硬度趋化性

Cell Shape and Durotaxis Explained from Cell-Extracellular Matrix Forces and Focal Adhesion Dynamics.

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