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Self-assembly of tessellated tissue sheets by expansion and collision

Matthew A. Heinrich, Ricard Alert, Abraham E. Wolf, Andrej Košmrlj () and Daniel J. Cohen ()
Additional contact information
Matthew A. Heinrich: Princeton University
Ricard Alert: Princeton University
Abraham E. Wolf: Princeton University
Andrej Košmrlj: Princeton University
Daniel J. Cohen: Princeton University

Nature Communications, 2022, vol. 13, issue 1, 1-10

Abstract: Abstract Tissues do not exist in isolation—they interact with other tissues within and across organs. While cell-cell interactions have been intensely investigated, less is known about tissue-tissue interactions. Here, we studied collisions between monolayer tissues with different geometries, cell densities, and cell types. First, we determine rules for tissue shape changes during binary collisions and describe complex cell migration at tri-tissue boundaries. Next, we propose that genetically identical tissues displace each other based on pressure gradients, which are directly linked to gradients in cell density. We present a physical model of tissue interactions that allows us to estimate the bulk modulus of the tissues from collision dynamics. Finally, we introduce TissEllate, a design tool for self-assembling complex tessellations from arrays of many tissues, and we use cell sheet engineering techniques to transfer these composite tissues like cellular films. Overall, our work provides insight into the mechanics of tissue collisions, harnessing them to engineer tissue composites as designable living materials.

Date: 2022
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DOI: 10.1038/s41467-022-31459-1

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