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Stress relaxation in epithelial monolayers is controlled by the actomyosin cortex. | LitMetric

AI Article Synopsis

  • * When these monolayers are stretched, they quickly dissipate stress, with a relaxation pattern that can be described mathematically over time.
  • * The study reveals that the dynamics of the actomyosin cytoskeleton are crucial for how these monolayers behave under stress, allowing them to stretch and adapt like single cells while maintaining strong cell connections.

Article Abstract

Epithelial monolayers are one-cell thick tissue sheets that line most of the body surfaces, separating internal and external environments. As part of their function, they must withstand extrinsic mechanical stresses applied at high strain rates. However, little is known about how monolayers respond to mechanical deformations. Here, by subjecting suspended epithelial monolayers to stretch, we find that they dissipate stresses on a minute timescale and that relaxation can be described by a power law with an exponential cut-off at timescales larger than ~10 s. This process involves an increase in monolayer length, pointing to active remodelling of cellular biopolymers at the molecular scale during relaxation. Strikingly, monolayers consisting of tens of thousands of cells relax stress with similar dynamics to single rounded cells and both respond similarly to perturbations of the actomyosin cytoskeleton. By contrast, cell-cell junctional complexes and intermediate filaments do not relax tissue stress, but form stable connections between cells, allowing monolayers to behave rheologically as single cells. Taken together our data show that actomyosin dynamics governs the rheological properties of epithelial monolayers, dissipating applied stresses, and enabling changes in monolayer length.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7116713PMC
http://dx.doi.org/10.1038/s41567-019-0516-6DOI Listing

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