Force-exerting lateral protrusions in fibroblastic cell contraction

Padhi, Abinash; Singh, Kumaresh; Franco‐Barraza, Janusz; Marston, Daniel J.; Cukierman, Edna; Hahn, Klaus M.; Kapania, Rakesh K.; Nain, Amrinder S.

doi:10.1101/711507

2019

DOI: 10.1101/711507

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Force-exerting lateral protrusions in fibroblastic cell contraction

Abinash Padhi

Kumaresh Singh

Janusz Franco‐Barraza

et al.

Abstract: Aligned extracellular matrix fibers impart an elongated cell morphology and enable fibroblasts to undergo myofibroblastic activation. Yet the biomechanical intricacies that are associated with this microenvironmental phenomenon are unknown. Here, we identify a new role of lateral protrusions, originating anywhere along elongated fibroblastic cells, which apply fiber-deflecting contractile forces. Using aligned fiber networks that serve as force sensors, we quantitate the role of lateral nano-projections (twine… Show more

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Appreciating the role of cell shape changes in the mechanobiology of epithelial tissues

et al. 2022

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The wide range of epithelial cell shapes reveals the complexity and diversity of the intracellular mechanisms that serve to construct their morphology and regulate their functions. Using mechanosensitive steps, epithelial cells can sense a variety of different mechanochemical stimuli and adapt their behavior by reshaping their morphology. These changes of cell shape rely on a structural reorganization in space and time that generates modifications of the tensional state and activates biochemical cascades. Recent studies have started to unveil how the cell shape maintenance is involved in mechanical homeostatic tasks to sustain epithelial tissue folding, identity, and self-renewal. Here, we review relevant works that integrated mechanobiology to elucidate some of the core principles of how cell shape may be conveyed into spatial information to guide collective processes such as epithelial morphogenesis. Among many other parameters, we show that the regulation of the cell shape can be understood as the result of the interplay between two counteracting mechanisms: actomyosin contractility and intercellular adhesions, and that both do not act independently but are functionally integrated to operate on molecular, cellular, and tissue scales. We highlight the role of cadherin-based adhesions in force-sensing and mechanotransduction, and we report recent developments that exploit physics of liquid crystals to connect cell shape changes to orientational order in cell aggregates. Finally, we emphasize that the further intermingling of different disciplines to develop new mechanobiology assays will lead the way toward a unified picture of the contribution of cell shape to the pathophysiological behavior of epithelial tissues.

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Appreciating the role of cell shape changes in the mechanobiology of epithelial tissues

et al. 2022

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Force-exerting lateral protrusions in fibroblastic cell contraction

Cited by 1 publication

References 71 publications

Appreciating the role of cell shape changes in the mechanobiology of epithelial tissues

Appreciating the role of cell shape changes in the mechanobiology of epithelial tissues

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