Maxime Gasnier scite author profile

Transformation from morula to blastocyst is a defining event of preimplantation embryo development. During this transition, the embryo must establish a paracellular permeability barrier to enable expansion of the blastocyst cavity. Here, using live imaging of mouse embryos, we reveal an actin-zippering mechanism driving this embryo sealing. Preceding blastocyst stage, a cortical F-actin ring assembles at the apical pole of the embryo's outer cells. The ring structure forms when cortical actin flows encounter a network of polar microtubules that exclude F-actin. Unlike stereotypical actin rings, the actin rings of the mouse embryo are not contractile, but instead, they expand to the cell-cell junctions. Here, they couple to the junctions by recruiting and stabilizing adherens and tight junction components. Coupling of the actin rings triggers localized myosin II accumulation, and it initiates a tension-dependent zippering mechanism along the junctions that is required to seal the embryo for blastocyst formation.

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Keratins are asymmetrically inherited fate determinants in the mammalian embryo

Lim

Álvarez

Gasnier

et al. 2020

Nature

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Cell Fate Decisions During Preimplantation Mammalian Development

Bissière

Gasnier

Álvarez

et al. 2018

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Maxime Gasnier

Expanding Actin Rings Zipper the Mouse Embryo for Blastocyst Formation

Keratins are asymmetrically inherited fate determinants in the mammalian embryo

Cell Fate Decisions During Preimplantation Mammalian Development

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