F-肌动蛋白力学控制小鼠受精卵中的纺锤体居中。

F-actin mechanics control spindle centring in the mouse zygote.

作者信息

Chaigne Agathe, Campillo Clément, Voituriez Raphaël, Gov Nir S, Sykes Cécile, Verlhac Marie-Hélène, Terret Marie-Emilie

机构信息

CIRB, Collège de France, and CNRS-UMR7241 and INSERM-U1050, Equipe labellisée Ligue contre le Cancer, Paris F-75005, France.

Université Evry Val d'Essonne, LAMBE, Boulevard F Mitterrand, Evry 91025, France.

出版信息

Nat Commun. 2016 Jan 4;7:10253. doi: 10.1038/ncomms10253.

DOI:10.1038/ncomms10253

PMID:26727405

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4725770/

Abstract

Mitotic spindle position relies on interactions between astral microtubules nucleated by centrosomes and a rigid cortex. Some cells, such as mouse oocytes, do not possess centrosomes and astral microtubules. These cells rely only on actin and on a soft cortex to position their spindle off-centre and undergo asymmetric divisions. While the first mouse embryonic division also occurs in the absence of centrosomes, it is symmetric and not much is known on how the spindle is positioned at the exact cell centre. Using interdisciplinary approaches, we demonstrate that zygotic spindle positioning follows a three-step process: (1) coarse centring of pronuclei relying on the dynamics of an F-actin/Myosin-Vb meshwork; (2) fine centring of the metaphase plate depending on a high cortical tension; (3) passive maintenance at the cell centre. Altogether, we show that F-actin-dependent mechanics operate the switch between asymmetric to symmetric division required at the oocyte to embryo transition.

摘要

有丝分裂纺锤体的位置依赖于由中心体产生的星体微管与刚性皮层之间的相互作用。一些细胞，如小鼠卵母细胞，不具备中心体和星体微管。这些细胞仅依靠肌动蛋白和柔软的皮层来将纺锤体定位在偏离中心的位置并进行不对称分裂。虽然小鼠的第一次胚胎分裂也是在没有中心体的情况下发生的，但它是对称的，关于纺锤体如何精确地定位在细胞中心，人们了解得并不多。通过跨学科方法，我们证明合子纺锤体定位遵循一个三步过程：（1）原核的粗略居中依赖于F-肌动蛋白/肌球蛋白-Vb网络的动力学；（2）中期板的精细居中取决于高皮层张力；（3）在细胞中心的被动维持。总之，我们表明依赖于F-肌动蛋白的力学作用在卵母细胞到胚胎转变所需的不对称分裂到对称分裂之间起到了转换作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dd33/4725770/7f7350cab269/ncomms10253-f1.jpg

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F-肌动蛋白力学控制小鼠受精卵中的纺锤体居中。

F-actin mechanics control spindle centring in the mouse zygote.

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