Friction forces determine cytoplasmic reorganization and shape changes of ascidian oocytes upon fertilization

Author:

Caballero-Mancebo SilviaORCID,Shinde RushikeshORCID,Bolger-Munro MadisonORCID,Peruzzo Matilda,Szep Gregory,Steccari Irene,Labrousse-Arias David,Zheden VanessaORCID,Merrin Jack,Callan-Jones AndrewORCID,Voituriez Raphaël,Heisenberg Carl-PhilippORCID

Abstract

AbstractContraction and flow of the actin cell cortex have emerged as a common principle by which cells reorganize their cytoplasm and take shape. However, how these cortical flows interact with adjacent cytoplasmic components, changing their form and localization, and how this affects cytoplasmic organization and cell shape remains unclear. Here we show that in ascidian oocytes, the cooperative activities of cortical actomyosin flows and deformation of the adjacent mitochondria-rich myoplasm drive oocyte cytoplasmic reorganization and shape changes following fertilization. We show that vegetal-directed cortical actomyosin flows, established upon oocyte fertilization, lead to both the accumulation of cortical actin at the vegetal pole of the zygote and compression and local buckling of the adjacent elastic solid-like myoplasm layer due to friction forces generated at their interface. Once cortical flows have ceased, the multiple myoplasm buckles resolve into one larger buckle, which again drives the formation of the contraction pole—a protuberance of the zygote’s vegetal pole where maternal mRNAs accumulate. Thus, our findings reveal a mechanism where cortical actomyosin network flows determine cytoplasmic reorganization and cell shape by deforming adjacent cytoplasmic components through friction forces.

Funder

Austrian Science Fund

Publisher

Springer Science and Business Media LLC

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