Toshi Parmar, Liam P. Dow, beth L. Pruitt, M. Cristina Marchetti
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Spontaneous and Induced Oscillations in Confined Epithelia
The feedback between mechanical and chemical signals plays a key role in
controlling many biological processes and collective cell behavior. Here we
focus on the emergence of spatiotemporal density waves in a one-dimensional
"cell train." Combining a minimal theoretical model with observations in an in
vitro experimental system of MDCK epithelial cells confined to a linear
pattern, we examine the spontaneous oscillations driven by the feedback between
myosin activation and mechanical deformations and their effect on the response
of the tissue to externally applied deformations. We show that the nature and
frequency of spontaneous oscillations is controlled by the size of the cell
train, with a transition from size-dependent standing waves to intrinsic
spontaneous waves at the natural frequency of the tissue. The response to
external boundary perturbations exhibit a resonance at this natural frequency,
providing a possible venue for inferring the mechanochemical couplings that
control the tissue behavior from rheological experiments.
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