结合实验和计算建模来推断黏附和增殖在细胞群体动力学中的作用。

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

机构信息

Centro de Física Teórica e Computacional, Faculdade de Ciências, Universidade de Lisboa, 1749-016, Lisboa, Portugal.

3B's Research Group, I3Bs - Research Institute On Biomaterials, Biodegradables and Biomimetics of University of Minho, Headquarters of the European Institute of Excellence On Tissue Engineering and Regenerative Medicine, AvePark, Parque de Ciência e Tecnologia, Zona Industrial da Gandra, 4805-017, Barco, Guimarães, Portugal.

出版信息

Sci Rep. 2021 Oct 6;11(1):19894. doi: 10.1038/s41598-021-99390-x.

DOI:10.1038/s41598-021-99390-x

PMID:34615941

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8494750/

Abstract

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.

摘要

细胞在表面和界面的集体动力学在形态发生、组织工程和癌症的研究中带来了技术和理论上的挑战。不同的机制在起作用，包括细胞-细胞黏附、细胞运动和增殖。然而，每种机制的相对重要性难以捉摸。在这里，我们将多形性胶质母细胞瘤细胞在基质上的培养实验与计算机建模相结合，以推断每种机制的速率。通过参数化这些速率，可以再现实验中观察到的空间相关性的时间依赖性。得到的结果表明，细胞-细胞黏附随着细胞密度的增加而降低。讨论了这种减少的原因及其对癌细胞集体动力学的可能影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b89d/8494750/698544a08a16/41598_2021_99390_Fig1_HTML.jpg

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结合实验和计算建模来推断黏附和增殖在细胞群体动力学中的作用。

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

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