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

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

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

Afiliação

Laplaud V; Physique et Mécanique des Milieux Hétérogènes, ESPCI Paris, PSL University, CNRS, Univ Paris, Sorbonne Université, Paris, France.
Levernier N; Institut Curie and Institut Pierre Gilles de Gennes, PSL University, CNRS, Paris, France.
Pineau J; Department of Theoretical Physics, University of Geneva, Geneva, Switzerland.
Roman MS; Institut Curie, INSERM U932, PSL University, Paris, France.
Barbier L; Institut Curie, INSERM U932, PSL University, Paris, France.
Sáez PJ; Institut Curie and Institut Pierre Gilles de Gennes, PSL University, CNRS, Paris, France.
Lennon-Duménil AM; Institut Curie and Institut Pierre Gilles de Gennes, PSL University, CNRS, Paris, France.
Vargas P; Institut Curie, INSERM U932, PSL University, Paris, France.
Kruse K; Institut Curie and Institut Pierre Gilles de Gennes, PSL University, CNRS, Paris, France.
du Roure O; Departments of Biochemistry and Theoretical Physics and NCCR for Chemical Biology, University of Geneva, Geneva 1211, Switzerland.
Piel M; Physique et Mécanique des Milieux Hétérogènes, ESPCI Paris, PSL University, CNRS, Univ Paris, Sorbonne Université, Paris, France. olivia.duroure@espci.fr matthieu.piel@curie.fr julien.heuvingh@espci.fr.
Heuvingh J; Institut Curie and Institut Pierre Gilles de Gennes, PSL University, CNRS, Paris, France. olivia.duroure@espci.fr matthieu.piel@curie.fr julien.heuvingh@espci.fr.

Sci Adv ; 7(27)2021 Jul.

Article em En | MEDLINE | ID: mdl-34215576

RESUMO

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 time-resolved 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.

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Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Idioma: En Revista: Sci Adv Ano de publicação: 2021 Tipo de documento: Article País de afiliação: França

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