The role of fluctuations and stress on the effective viscosity of cell aggregates

Marmottant, Philippe; Mgharbel, Abbas; Käfer, Jos; Audren, Benjamin; Rieu, Jean-Paul; Vial, Jean-Claude; Sanden, Boudewijn van der; Marée, Athanasius F. M.; Graner, François; Delanoë-Ayari, Hélène

doi:10.1073/pnas.0902085106

Cited by 202 publications

(230 citation statements)

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“…2G). This effect leads to Newtonian tissue flow at sufficiently low stress and, together with the energy barrier, it determines viscosity (Marmottant et al, 2009) (Box 2). We calculated tensions at cell contacts β* as described above, and contact areas from cell sizes and the sizes of interstitial gaps (Box 2, Table 1; supplementary material Fig.…”

Section: Box 1 Cell Adhesion and Cortical Tensionsmentioning

confidence: 99%

“…Viscosity as a function of tissue surface tension Marmottant et al (2009) modelled tissue flow by starting from the plastic flow of foams. In a foam, the liquid walls surrounding the air-filled cells minimise their surface due to liquid-air interfacial tension.…”

Section: Box 1 Cell Adhesion and Cortical Tensionsmentioning

confidence: 99%

“…This feature is essential for many morphogenetic processes, and is extensively studied at the subcellular level during epithelial cell rearrangement. It also underlies the liquidlike behaviour of tissues (Gordon et al, 1972;Forgacs et al, 1998;Marmottant et al, 2009), which invites the analysis of cell rearrangement at a more generalised, mechanical level.…”

Section: Introductionmentioning

confidence: 99%

“…While cohesion ensures tissue integrity, it also confers resistance to largescale movement. This resistance is measured as tissue viscosity (Gordon et al, 1972;Marmottant et al, 2009;Rieu and Sawada, 2002;Mombach et al, 2005). To understand the basic mechanics of cell rearrangements in liquid-like tissues, the relationship between tissue cohesion and viscosity needs to be clarified.…”

Section: Introductionmentioning

confidence: 99%

“…We then determine a number of additional cellular parameters, in part derived from an analysis of cell adhesion, and use these to show that a recent model of tissue viscosity (Marmottant et al, 2009) predicts and explains the linear relationship between tissue surface tension and viscosity. These findings have far-reaching implications for the mechanics of cell rearrangement.…”

Section: Introductionmentioning

confidence: 99%

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Tissue cohesion and the mechanics of cell rearrangement

et al. 2014

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Morphogenetic processes often involve the rapid rearrangement of cells held together by mutual adhesion. The dynamic nature of this adhesion endows tissues with liquid-like properties, such that largescale shape changes appear as tissue flows. Generally, the resistance to flow (tissue viscosity) is expected to depend on the cohesion of a tissue (how strongly its cells adhere to each other), but the exact relationship between these parameters is not known. Here, we analyse the link between cohesion and viscosity to uncover basic mechanical principles of cell rearrangement. We show that for vertebrate and invertebrate tissues, viscosity varies in proportion to cohesion over a 200-fold range of values. We demonstrate that this proportionality is predicted by a cell-based model of tissue viscosity. To do so, we analyse cell adhesion in Xenopus embryonic tissues and determine a number of parameters, including tissue surface tension (as a measure of cohesion), cell contact fluctuation and cortical tension. In the tissues studied, the ratio of surface tension to viscosity, which has the dimension of a velocity, is 1.8 µm/min. This characteristic velocity reflects the rate of cell-cell boundary contraction during rearrangement, and sets a limit to rearrangement rates. Moreover, we propose that, in these tissues, cell movement is maximally efficient. Our approach to cell rearrangement mechanics links adhesion to the resistance of a tissue to plastic deformation, identifies the characteristic velocity of the process, and provides a basis for the comparison of tissues with mechanical properties that may vary by orders of magnitude.

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Section: Box 1 Cell Adhesion and Cortical Tensionsmentioning

confidence: 99%

Section: Box 1 Cell Adhesion and Cortical Tensionsmentioning

confidence: 99%