细胞骨架串联如何使细胞运动:无细胞研究与细胞研究的桥梁

James P. Conboy, Irene Istúriz Petitjean, Anouk van der Net, Gijsje H. Koenderink
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引用次数: 0

摘要

细胞迁移是生命的基本过程,高度依赖于细胞骨架的动态和机械特性。肌动蛋白、微管和中间纤维之间密切的物理和生物化学相互作用确保了它们之间的协调,从而促进并实现了迁移。在这篇综述中,我们讨论了支配细胞迁移的不同机械方面,并针对每个机械方面提供了一个新的视角,将两种互补的方法结合起来,对细胞骨架串联进行生物物理研究:活细胞研究(通常称为自上而下研究)和无细胞研究(通常称为自下而上研究)。我们总结了这两种实验方法的主要发现,并提出了我们的观点,即弥合这两种观点,解决细胞骨架串扰如何支配细胞迁移和使细胞移动的未决问题。
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How cytoskeletal crosstalk makes cells move: bridging cell-free and cell studies
Cell migration is a fundamental process for life and is highly dependent on the dynamical and mechanical properties of the cytoskeleton. Intensive physical and biochemical crosstalk between actin, microtubules, and intermediate filaments ensures their coordination to facilitate and enable migration. In this review we discuss the different mechanical aspects that govern cell migration and provide, for each mechanical aspect, a novel perspective by juxtaposing two complementary approaches to the biophysical study of cytoskeletal crosstalk: live-cell studies (often referred to as top-down studies) and cell-free studies (often referred to as bottom-up studies). We summarize the main findings from both experimental approaches, and we provide our perspective on bridging the two perspectives to address the open questions of how cytoskeletal crosstalk governs cell migration and makes cells move.
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