The role of the nucleus for cell mechanics: an elastic phase field approach

Robert Chojowski, Ulrich S. Schwarz, Falko Ziebert
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Abstract

The nucleus of eukaryotic cells typically makes up around 30 % of the cell volume and tends to be up to ten times stiffer than the surrounding cytoplasm. Therefore it is an important element for cell mechanics, but a quantitative understanding of its mechanical role is largely missing. Here we demonstrate that elastic phase fields can be used to describe dynamical cell processes in adhesive or confining environments in which the nucleus plays an important role. We first introduce and verify our computational method and then study several applications of large relevance. For cells on adhesive patterns, we find that nuclear stress is shielded by the adhesive pattern. For cell compression between two parallel plates, we obtain force-compression curves that allow us to extract an effective modulus for the cell-nucleus composite. For micropipette aspiration, the effect of the nucleus on the effective modulus is found to be much weaker, highlighting the complicated interplay between extracellular geometry and cell mechanics that is captured by our approach.
细胞核在细胞力学中的作用:弹性相场方法
真核细胞的细胞核通常约占细胞体积的30%,并且往往比周围的细胞质坚硬10倍。因此,它是细胞力学的一个重要元素,但对其力学作用的定量理解在很大程度上是缺失的。在这里,我们证明了弹性相场可以用来描述原子核起重要作用的不粘附或受限环境中的动态细胞过程。我们首先介绍并验证了我们的计算方法,然后研究了几种大相关性的应用。对于具有粘附模式的细胞,我们发现细胞核应力被粘附模式所屏蔽。对于两个平行板之间的细胞压缩,我们获得了力压缩曲线,使我们能够提取细胞核复合材料的有效模量。对于微管抽吸,发现细胞核对有效模量的影响要弱得多,这突出了我们的方法所捕获的细胞外几何形状和细胞力学之间复杂的相互作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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