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细胞相互作用的介观力学模型。

A mesoscale mechanical model of cellular interactions.

机构信息

Department of Cell Biology, Johns Hopkins University School of Medicine, Baltimore, Maryland.

Department of Cell Biology, Johns Hopkins University School of Medicine, Baltimore, Maryland; Department of Electrical & Computer Engineering, Johns Hopkins University Whiting School of Engineering, Baltimore, Maryland.

出版信息

Biophys J. 2021 Nov 16;120(22):4905-4917. doi: 10.1016/j.bpj.2021.10.021. Epub 2021 Oct 21.

DOI:10.1016/j.bpj.2021.10.021
PMID:34687718
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8633826/
Abstract

Computational models of cell mechanics allow the precise interrogation of cell shape change. These morphological changes are required for cells to survive in diverse tissue environments. Here, we present a mesoscale mechanical model of cell-substrate interactions using the level set method based on experimentally measured parameters. By implementing a viscoelastic mechanical equivalent circuit, we accurately model whole-cell deformations that are important for a variety of cellular processes. To effectively model shape changes as a cell interacts with a substrate, we have included receptor-mediated adhesion, which is governed by catch-slip bond behavior. The effect of adhesion was explored by subjecting cells to a variety of different substrates including flat, curved, and deformable surfaces. Finally, we increased the accuracy of our simulations by including a deformable nucleus in our cells. This model sets the foundation for further exploration into computational analyses of multicellular interactions.

摘要

细胞力学的计算模型允许对细胞形状变化进行精确的询问。这些形态变化是细胞在不同组织环境中生存所必需的。在这里,我们使用基于实验测量参数的水平集方法呈现了一种细胞-基底相互作用的介观力学模型。通过实现粘弹性力学等效电路,我们准确地模拟了对各种细胞过程很重要的整个细胞变形。为了有效地模拟细胞与基底相互作用时的形状变化,我们已经包括了由捕获-滑动键行为控制的受体介导的黏附。通过使细胞接触各种不同的基底,包括平面、曲面和可变形表面,来研究黏附的效果。最后,我们通过在细胞中包含可变形核来提高模拟的准确性。该模型为进一步探索细胞间相互作用的计算分析奠定了基础。

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