Pinching the cortex of live cells reveals thickness instabilities caused by myosin II motors

Valentin Laplaud; Nicolas Levernier; Judith Pineau; Lucie Barbier; Pablo J Sáez; Ana-Maria Lennon-Duménil; Pablo Vargas; Karsten Kruse; Olivia Du Roure; Matthieu Piel; Julien Heuvingh; Mabel San Roman

doi:10.1126/sciadv.abe3640

Journal Articles Science Advances Year : 2021

Pinching the cortex of live cells reveals thickness instabilities caused by myosin II motors

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Valentin Laplaud

Function : Author

Physique et mécanique des milieux hétérogenes (UMR 7636)

Nicolas Levernier

Function : Author

Institut universitaire des systèmes thermiques industriels

Judith Pineau

Function : Author

Immunité et cancer

Lucie Barbier

Function : Author

Biologie Cellulaire et Cancer

Pablo J Sáez

Function : Author

Biologie Cellulaire et Cancer

Ana-Maria Lennon-Duménil

Function : Author

Immunité et cancer

Pablo Vargas

Function : Author
PersonId : 760225
ORCID : 0000-0002-6475-494X
IdRef : 233181083

Consejo Superior de Investigaciones Científicas [Madrid]

Karsten Kruse

Function : Author
PersonId : 804003
ORCID : 0000-0001-8665-2349

Université de Genève = University of Geneva

Olivia Du Roure

Function : Author

Physique et mécanique des milieux hétérogenes (UMR 7636)

Matthieu Piel

Function : Author
PersonId : 740876
IdHAL : matthieu-piel
ORCID : 0000-0002-2848-177X
IdRef : 069905509

Institut Pierre-Gilles de Gennes pour la Microfluidique

Julien Heuvingh

Function : Author

Physique et mécanique des milieux hétérogenes (UMR 7636)

Mabel San Roman

Function : Author

Immunité et cancer

Abstract

The cell cortex is a contractile actin meshwork, which determines cell shape and is essential for cell mechanics, migration, and division. Because its thickness is below optical resolution, there is a tendency to consider the cortex as a thin uniform two-dimensional layer. Using two mutually attracted magnetic beads, one inside the cell and the other in the extracellular medium, we pinch the cortex of dendritic cells and provide an accurate and timeresolved measure of its thickness. Our observations draw a new picture of the cell cortex as a highly dynamic layer, harboring large fluctuations in its third dimension because of actomyosin contractility. We propose that the cortex dynamics might be responsible for the fast shape-changing capacity of highly contractile cells that use amoeboid-like migration.

Domains

Physics [physics]

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eabe3640.full.pdf (1.09 Mo)

Origin : Publication funded by an institution

HAL Sorbonne Université 5 Gestionnaire : Connect in order to contact the contributor

https://hal.sorbonne-universite.fr/hal-03278532

Submitted on : Monday, July 5, 2021-4:35:31 PM

Last modification on : Friday, March 24, 2023-2:53:22 PM

Long-term archiving on: Wednesday, October 6, 2021-9:17:43 PM

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hal-03278532 , version 1 (05-07-2021)

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HAL Id : hal-03278532 , version 1
DOI : 10.1126/sciadv.abe3640

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Valentin Laplaud, Nicolas Levernier, Judith Pineau, Lucie Barbier, Pablo J Sáez, et al.. Pinching the cortex of live cells reveals thickness instabilities caused by myosin II motors. Science Advances , 2021, 7 (27), pp.eabe3640. ⟨10.1126/sciadv.abe3640⟩. ⟨hal-03278532⟩

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Pinching the cortex of live cells reveals thickness instabilities caused by myosin II motors

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