肠器官组织的机械化学双稳态性实现了稳健的形态发生

Shi-Lei Xue, Qiutan Yang, Prisca Liberali, Edouard Hannezo
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引用次数: 0

摘要

人们对胚胎发生过程中如何以可重复的方式产生模式和形态仍然知之甚少。肠道类器官的形态发生涉及许多机械化学调控因子,包括细胞类型特异性骨骼力和渗透压驱动的腔容积变化。然而,这些作用力是否以及如何在时间和空间上通过反馈进行协调,以确保稳健的形态发生,目前仍不清楚。在这里,我们提出了一个具有局部细胞机械感觉的类器官形态发生的最小物理模型,在该模型中,管腔容积变化可通过直接机械(被动)和间接机械敏感(主动)机制影响上皮形状。我们展示了机械敏感性对细胞骨架张力的反馈如何产生形态上的双稳态性,其中隆起(开放)和出芽(封闭)两种隐窝状态都是可能的,并取决于体积变化的历史。这种双稳态性可以解释一些自相矛盾的实验观察结果,例如管腔收缩时间的重要性和最终形态发生状态对机械扰动的稳健性。在定量方面,我们通过机械和药理实验验证了关键建模假设,并对类器官的形态发生进行了定量预测。这表明,细胞张力和流体压力之间的反馈所产生的双稳态性可能是一种普遍的机制,可以协调发育系统中多细胞形状的变化。
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Mechanochemical bistability of intestinal organoids enables robust morphogenesis
How pattern and form are generated in a reproducible manner during embryogenesis remains poorly understood. Intestinal organoid morphogenesis involves a number of mechanochemical regulators, including cell-type specific cytoskeletal forces and osmotically-driven lumen volume changes. However, whether and how these forces are coordinated in time and space via feedbacks to ensure robust morphogenesis remains unclear. Here, we propose a minimal physical model of organoid morphogenesis with local cellular mechano-sensation, where lumen volume changes can impact epithelial shape via both direct mechanical (passive) and indirect mechanosensitive (active) mechanisms. We show how mechano-sensitive feedbacks on cytoskeletal tension generically give rise to morphological bistability, where both bulged (open) and budded (closed) crypt states are possible and dependent on the history of volume changes. Such bistability can explain several paradoxical experimental observations, such as the importance of the timing of lumen shrinkage and robustness of the final morphogenetic state to mechanical perturbations. More quantitatively, we performed mechanical and pharmacological experiments to validate the key modelling assumptions and make quantitative predictions on organoid morphogenesis. This suggests that bistability arising from feedbacks between cellular tensions and fluid pressure could be a general mechanism to allow for the coordination of multicellular shape changes in developing systems.
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