Harris, AR and Peter, L and Bellis, J and Baum, B and Kabla, AJ and Charras, GT (2012) Characterizing the mechanics of cultured cell monolayers. Proc Natl Acad Sci U S A, 109. pp. 16449-16454.Full text not available from this repository.
One-cell-thick monolayers are the simplest tissues in multicellular organisms, yet they fulfill critical roles in development and normal physiology. In early development, embryonic morphogenesis results largely from monolayer rearrangement and deformation due to internally generated forces. Later, monolayers act as physical barriers separating the internal environment from the exterior and must withstand externally applied forces. Though resisting and generating mechanical forces is an essential part of monolayer function, simple experimental methods to characterize monolayer mechanical properties are lacking. Here, we describe a system for tensile testing of freely suspended cultured monolayers that enables the examination of their mechanical behavior at multi-, uni-, and subcellular scales. Using this system, we provide measurements of monolayer elasticity and show that this is two orders of magnitude larger than the elasticity of their isolated cellular components. Monolayers could withstand more than a doubling in length before failing through rupture of intercellular junctions. Measurement of stress at fracture enabled a first estimation of the average force needed to separate cells within truly mature monolayers, approximately ninefold larger than measured in pairs of isolated cells. As in single cells, monolayer mechanical properties were strongly dependent on the integrity of the actin cytoskeleton, myosin, and intercellular adhesions interfacing adjacent cells. High magnification imaging revealed that keratin filaments became progressively stretched during extension, suggesting they participate in monolayer mechanics. This multiscale study of monolayer response to deformation enabled by our device provides the first quantitative investigation of the link between monolayer biology and mechanics.
|Uncontrolled Keywords:||Animals Cadherins Cell Adhesion Cell Culture Techniques Cell Proliferation Collagen Cytoskeleton Dogs Green Fluorescent Proteins Immunohistochemistry Intercellular Junctions Madin Darby Canine Kidney Cells Microscopy, Confocal Stress, Mechanical|
|Depositing User:||Cron job|
|Date Deposited:||04 Feb 2015 22:13|
|Last Modified:||04 May 2015 01:17|