Spontaneous and Induced Oscillations in Confined Epithelia

Toshi Parmar, Liam P. Dow, Beth L. Pruitt, M. Cristina Marchetti
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Abstract

The feedback between mechanical and chemical signals plays a key role in controlling many bisological processes and collective cell behavior. Here we focus on the emergence of spatiotemporal density waves in a one-dimensional “cell train.” Combining a minimal theoretical model with observations in an in vitro experimental system of MDCK epithelial cells confined to a linear pattern, we examine the spontaneous oscillations driven by the feedback between myosin activation and mechanical deformations and their effect on the response of the tissue to externally applied deformations. We show that the nature and frequency of spontaneous oscillations is controlled by the size of the cell train, with a transition from size-dependent standing waves to intrinsic spontaneous waves at the natural frequency of the tissue. The response to external boundary perturbations exhibit a resonance at this natural frequency, providing a possible venue for inferring the mechanochemical couplings that control the tissue behavior from rheological experiments.
封闭上皮细胞的自发振荡和诱导振荡
机械信号和化学信号之间的反馈在控制许多生物过程和细胞集体行为中起着关键作用。在此,我们重点研究一维 "细胞列车 "中出现的时空密度波。我们将最小理论模型与限制在线性模式中的 MDCK 上皮细胞体外实验系统中的观察结果相结合,研究了肌球蛋白活化和机械变形之间的反馈所驱动的自发振荡及其对组织对外部施加的变形的响应的影响。我们的研究表明,自发振荡的性质和频率受细胞系大小的控制,在组织的固有频率下,自发振荡会从依赖于大小的驻波过渡到固有的自发波。对外部边界扰动的响应在该固有频率处表现出共振,这为从流变实验中推断控制组织行为的机械化学耦合提供了可能。
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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