弯曲组织中的细胞粘弹性、皮层极性、超弹性和细胞-细胞连接的力学影响

bioRxiv - Biophysics Pub Date : 2024-08-05 DOI:10.1101/2024.08.01.606202

Amaury Perez-Tirado, Ulla Unkelbach, Tabea A. Oswald, Johannes Rheinlaender, Tilman E. Schaeffer, Markus Mukenhirn, Alf Honigmann, Andreas Janshoff

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摘要

对源自 MDCK-II 细胞的弯曲上皮对外部变形的反应的研究包括利用胶体探针显微镜进行的压痕-松弛实验。值得注意的是，与囊肿相比，半囊肿表现出更低的组织张力、更大的顺应性和更高的流动性。变形的主要反应是细胞基底皮层/膜在平面内的扩张。此外，对弯曲组织进行药物处理以及对定制突变体（如E-cadherin基因敲除）进行变形处理后发现，组织在短时间内的顺应性受到单个细胞的粘弹性、其顶端-基底极性、外壳的超弹性以及过大的界面面积的相互作用的影响。同时，组织韧性主要取决于细胞-细胞接触的完整性。

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Mechanical Implications of Cellular Viscoelasticity, Cortex Polarity, Superelasticity, and Cell-Cell Junctions in Curved Tissues

Investigations of the response of curved epithelia derived from MDCK-II cells to external deformation involved indentation-relaxation experiments using colloidal probe microscopy. Notably, hemicysts exhibited lower tissue tension, greater compliance, and increased fluidity compared to cysts. The primary response to deformation turned out to be the in-plane expansion of the basal cortex/membrane of cells. Additionally, drug treatments applied to curved tissue, along with deformation of tailored mutants (such as E-cadherin knockout), revealed that tissue compliance over short time scales is influenced by an interplay of viscoelastic properties in individual cells, their apical-basal polarity, superelasticity of the shell, and excess interfacial area. Meanwhile, tissue resilience predominantly depends on the integrity of cell-cell contacts.

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bioRxiv - Biophysics

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