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Journal article

Ependymal cilia beating induces an actin network to protect centrioles against shear stress

By Mahuzier, Alexia1; Shihavuddin, Asm2,3; Fournier, Clémence4,5; Lansade, Pauline1; Faucourt, Marion1; Menezes, Nikita1; Meunier, Alice1; Garfa-Traoré, Meriem5; Carlier, Marie France4; Voituriez, Raphael4; Genovesio, Auguste1; Spassky, Nathalie1; Delgehyr, Nathalie1 ...and 3 more

From

Université Paris 131

Department of Applied Mathematics and Computer Science, Technical University of Denmark2

Visual Computing, Department of Applied Mathematics and Computer Science, Technical University of Denmark3

CNRS4

Sorbonne Université5

Multiciliated ependymal cells line all brain cavities. The beating of their motile cilia contributes to the flow of cerebrospinal fluid, which is required for brain homoeostasis and functions. Motile cilia, nucleated from centrioles, persist once formed and withstand the forces produced by the external fluid flow and by their own cilia beating.

Here, we show that a dense actin network around the centrioles is induced by cilia beating, as shown by the disorganisation of the actin network upon impairment of cilia motility. Moreover, disruption of the actin network, or specifically of the apical actin network, causes motile cilia and their centrioles to detach from the apical surface of ependymal cell.

In conclusion, cilia beating controls the apical actin network around centrioles; the mechanical resistance of this actin network contributes, in turn, to centriole stability.

Language: English
Publisher: Nature Publishing Group UK
Year: 2018
Pages: 2279
ISSN: 20411723
Types: Journal article
DOI: 10.1038/s41467-018-04676-w
ORCIDs: 0000-0003-1877-5595 and Shihavuddin, Asm
Keywords

Actins Animals Biomechanical Phenomena Centrioles Cilia Cobl protein, mouse Cytoskeletal Proteins Ependyma Mice Mice, Knockout Mice, Transgenic Microfilament Proteins Models, Neurological Protein Interaction Maps Proteins Q Science

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