Epithelial cell-cell interactions in an overcrowded environment: jamming or live cell extrusion

Pajic-Lijakovic, Ivana and Milivojevic, Milan and McClintock, Peter V. E. (2024) Epithelial cell-cell interactions in an overcrowded environment: jamming or live cell extrusion. Journal of Biological Engineering. ISSN 1754-1611 (In Press)

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Abstract

Epithelial tissues respond strongly to the mechanical stress caused by collective cell migration and are able to regulate it, which is important for biological processes such as morphogenesis, wound healing, and suppression of the spread of cancer. Compressive, tensional, and shear stress components are produced in cells when epithelial monolayers on substrate matrices are actively or passively wetted or de-wetted. Increased compressive stress on cells leads to enhanced cell-cell interactions by increasing the frequency of change the cell-cell distances, triggering various signalling pathways within the cells. This can ultimately lead either to cell jamming or to the extrusion of live cells. Despite extensive research in this field, it remains unclear how cells decide whether to jam, or to extrude a cell or cells, and how cells can reduce the compressive mechanical stress. Live cell extrusion from the overcrowded regions of the monolayers is associated with the presence of topological defects of cell alignment, induced by an interplay between the cell compressive and shear stress components. These topological defects stimulate cell re-alignment, as a part of the cells’ tendency to re-establish an ordered trend of cell migration, by intensifying the glancing interactions in overcrowded regions. In addition to individual cell extrusion, collective cell extrusion has also been documented during monolayer active de-wetting, depending on the cell type, matrix stiffness, and boundary conditions. Cell jamming has been discussed in the context of the cells’ contact inhibition of locomotion caused by cell head-on interactions. Since cell-cell interactions play a crucial role in cell rearrangement in an overcrowded environment, this review is focused on physical aspects of these interactions in order to stimulate further biological research in the field.

Item Type:
Journal Article
Journal or Publication Title:
Journal of Biological Engineering
Uncontrolled Keywords:
/dk/atira/pure/subjectarea/asjc/2200/2204
Subjects:
?? biomedical engineeringcell biologymolecular biologyenvironmental engineering ??
ID Code:
223387
Deposited By:
Deposited On:
23 Aug 2024 08:45
Refereed?:
Yes
Published?:
In Press
Last Modified:
18 Nov 2024 01:34