Lunova Mariia, Zablotskii Vitalii, Dempsey Nora M, Devillers Thibaut, Jirsa Milan, Syková Eva, Kubinová Šárka, Lunov Oleg, Dejneka Alexandr
Institute for Clinical & Experimental Medicine (IKEM), Prague, Czech Republic.
Institute of Physics of the Academy of Sciences of the Czech Republic, Prague, 18221, Czech Republic.
Integr Biol (Camb). 2016 Nov 7;8(11):1099-1110. doi: 10.1039/c6ib00125d.
Intracellular and extracellular mechanical forces play a crucial role during tissue growth, modulating nuclear shape and function and resulting in complex collective cell behaviour. However, the mechanistic understanding of how the orientation, shape, symmetry and homogeneity of cells are affected by environmental geometry is still lacking. Here we investigate cooperative cell behaviour and patterns under geometric constraints created by topographically patterned substrates. We show how cells cooperatively adopt their geometry, shape, positioning of the nucleus and subsequent proliferation activity. Our findings indicate that geometric constraints induce significant squeezing of cells and nuclei, cytoskeleton reorganization, drastic condensation of chromatin resulting in a change in the cell proliferation rate and the anisotropic growth of cultures. Altogether, this work not only demonstrates complex non-trivial collective cellular responses to geometrical constraints but also provides a tentative explanation of the observed cell culture patterns grown on different topographically patterned substrates. These findings provide important fundamental knowledge, which could serve as a basis for better controlled tissue growth and cell-engineering applications.
细胞内和细胞外的机械力在组织生长过程中起着至关重要的作用,调节细胞核的形状和功能,并导致复杂的集体细胞行为。然而,对于环境几何形状如何影响细胞的取向、形状、对称性和同质性,仍缺乏机制上的理解。在这里,我们研究了由地形图案化基板产生的几何约束下的协同细胞行为和模式。我们展示了细胞如何协同采用它们的几何形状、形状、细胞核定位以及随后的增殖活动。我们的研究结果表明,几何约束会导致细胞和细胞核的显著挤压、细胞骨架重组、染色质的剧烈浓缩,从而导致细胞增殖率的变化和培养物的各向异性生长。总之,这项工作不仅展示了细胞对几何约束的复杂而非平凡的集体反应,还为在不同地形图案化基板上生长的细胞培养模式提供了初步解释。这些发现提供了重要的基础知识,可为更好地控制组织生长和细胞工程应用奠定基础。
