Literature DB >> 31209386

Cellular nanoscale stiffness patterns governed by intracellular forces.

Nicola Mandriota1, Claudia Friedsam2, John A Jones-Molina1, Kathleen V Tatem1,3, Donald E Ingber2,4,5, Ozgur Sahin6,7.   

Abstract

Cell stiffness measurements have led to insights into various physiological and pathological processes1,2. Although many cellular behaviours are influenced by intracellular mechanical forces3-6 that also alter the material properties of the cell, the precise mechanistic relationship between intracellular forces and cell stiffness remains unclear. Here we develop a cell mechanical imaging platform with high spatial resolution that reveals the existence of nanoscale stiffness patterns governed by intracellular forces. On the basis of these findings, we develop and validate a cellular mechanical model that quantitatively relates cell stiffness to intracellular forces. This allows us to determine the magnitude of tension within actin bundles, cell cortex and plasma membrane from the cell stiffness patterns across individual cells. These results expand our knowledge on the mechanical interaction between cells and their environments, and offer an alternative approach to determine physiologically relevant intracellular forces from high-resolution cell stiffness images.

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Year:  2019        PMID: 31209386      PMCID: PMC6754298          DOI: 10.1038/s41563-019-0391-7

Source DB:  PubMed          Journal:  Nat Mater        ISSN: 1476-1122            Impact factor:   43.841


  34 in total

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Authors:  Frédéric Eghiaian; Annafrancesca Rigato; Simon Scheuring
Journal:  Biophys J       Date:  2015-03-24       Impact factor: 4.033
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Review 6.  Biological physics by high-speed atomic force microscopy.

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Journal:  Philos Trans A Math Phys Eng Sci       Date:  2020-10-26       Impact factor: 4.226

7.  Effects of energy metabolism on the mechanical properties of breast cancer cells.

Authors:  Marina L Yubero; Priscila M Kosaka; Álvaro San Paulo; Marcos Malumbres; Montserrat Calleja; Javier Tamayo
Journal:  Commun Biol       Date:  2020-10-20

8.  YAP-TEAD1 control of cytoskeleton dynamics and intracellular tension guides human pluripotent stem cell mesoderm specification.

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Journal:  Cell Death Differ       Date:  2020-10-28       Impact factor: 15.828

Review 9.  Cytoskeletal prestress: The cellular hallmark in mechanobiology and mechanomedicine.

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10.  Wood Deformation Leads to Rearrangement of Molecules at the Nanoscale.

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