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Volume 113, Issue 4, Pages (August 2017)

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1 Volume 113, Issue 4, Pages 770-774 (August 2017)
Tension and Elasticity Contribute to Fibroblast Cell Shape in Three Dimensions  Christoph A. Brand, Marco Linke, Kai Weißenbruch, Benjamin Richter, Martin Bastmeyer, Ulrich S. Schwarz  Biophysical Journal  Volume 113, Issue 4, Pages (August 2017) DOI: /j.bpj Copyright © 2017 Biophysical Society Terms and Conditions

2 Figure 1 Experimental setup and cell shape. (A) 3D microscaffolds for cell culture were created with direct laser writing. (B and C) Given here are scanning electron micrographs. (B) The six adhesive cubes (pseudocolored in red) form an inverted pyramid with a fivefold basis. The shortest distance between two neighboring adhesions and the central adhesion are both marked. (C) Given here is an image of a cell adhering to a 3D scaffold. One pillar is moved out to achieve variation in cell shape. (D–F) Volume rendering and fluorescence images illustrate that all adhesion points are used. (D) Rendering shows actin (green), chromatin (blue), fibronectin (violet), and micropillars (gray). (E) Fluorescence image includes labels for actin (green), fibronectin (violet), and chromatin (blue). (F) Fluorescence image (actin channel) of a cell viewed from below is given, showing that the cell obtains the shape of an inverted pyramid. Scale bars represent 5 μm. To see this figure in color, go online. Biophysical Journal  , DOI: ( /j.bpj ) Copyright © 2017 Biophysical Society Terms and Conditions

3 Figure 2 Quantitative analysis and modeling. (A) Given here is a computational 3D model of a contracted cell in the scaffold from Fig. 1 (gray) with adhesion sites marked (yellow spheres). The vector arrows show the force balance at the convoluted cell envelope in 3D. (B) Given here is an overlay with the segmented cell structure and the tilted circles fitted to the actin arcs. Segmented F-actin (green), fibronectin (red), and anchoring points of fitted circles (yellow spheres) are shown. (C) Both the computer simulations and the 2D tension-elasticity model (TEM) describe the experimentally measured increasing relation between spanning distance d and arc radius R. To see this figure in color, go online. Biophysical Journal  , DOI: ( /j.bpj ) Copyright © 2017 Biophysical Society Terms and Conditions

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