Biophysical Society Thematic Meeting| Aussois 2019
Biology and Physics Confront Cell-Cell Adhesion
Poster Abstracts
10-POS Board 10 TENSILE STRENGTH VS. SHEAR STRESS – AN APPROACH TO MEASURE INTERNAL TENSIONS BETWEEN CELL-CELL JUNCTIONS Julia Eckert 1 ; Luca Giomi 1 ; Thomas Schmidt 1 ; 1 Physics of Life Processes, Leiden Institute of Physics, Leiden University, Leiden, The Netherlands Cell-cell junctions and cell-extracellular-matrix adhesions are important for communication and coordination within tissues. Thereby, cells sense and apply different mechanical types of stress, for example during migration of cell clusters, tissue expansion or tissue compression. During all these cues, internal tensions act at the interface, of cell-matrix and of cell-cell junctions. Where stress at the cellmatrix interface have been extensively studied, cellular stress and forces at the cell-cell junctions in tissue are less well characterized. We have developed a methodology to measure both the external stress of cells towards the matrix and the internal stress between cells. Our methodology allows us to distinguish and to compare tensile vs shear stress on cell-cell junctions. Based on micropillar arrays for cell traction force measurements, we produced PDMS micropillar array-blocks, of size resembling that of individual cells, separated by micrometer-spacings. Cells adhere to individual blocks and are allowed to connect over the spacings. A controlled stretch allows us to change either the distance or the parallel position of the blocks with respect to each other. Thereby we are able to apply pure tensile or pure shear stress on the cell-cell junctions up to the point where they break. Our new methodology opens the way to study the influence of mechanical stress on cell-cell adhesions and to measure directly the internal tension between involved junctions of different types of cells.
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