微管
细胞骨架
生物物理学
材料科学
细胞力学
纳米技术
化学
细胞
细胞生物学
生物
生物化学
作者
Yuhui Li,Ondřej Kučera,Damien Cuvelier,David M. Rutkowski,Mathieu Deygas,Dipti Rai,Tonja Pavlovič,Filipe Nunes Vicente,Matthieu Piel,Grégory Giannone,Dimitrios Vavylonis,Anna Akhmanova,Laurent Blanchoin,Manuel Théry
出处
期刊:Nature Materials
[Springer Nature]
日期:2023-06-29
卷期号:22 (7): 913-924
被引量:16
标识
DOI:10.1038/s41563-023-01578-1
摘要
Microtubules are cytoskeleton components with unique mechanical and dynamic properties. They are rigid polymers that alternate phases of growth and shrinkage. Nonetheless, the cells can display a subset of stable microtubules, but it is unclear whether microtubule dynamics and mechanical properties are related. Recent in vitro studies suggest that microtubules have mechano-responsive properties, being able to stabilize their lattice by self-repair on physical damage. Here we study how microtubules respond to cycles of compressive forces in living cells and find that microtubules become distorted, less dynamic and more stable. This mechano-stabilization depends on CLASP2, which relocates from the end to the deformed shaft of microtubules. This process seems to be instrumental for cell migration in confined spaces. Overall, these results demonstrate that microtubules in living cells have mechano-responsive properties that allow them to resist and even counteract the forces to which they are subjected, being a central mediator of cellular mechano-responses.
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