4.6 Article

On the influence of cell shape on dynamic reaction-diffusion polarization patterns

Journal

PLOS ONE
Volume 16, Issue 3, Pages -

Publisher

PUBLIC LIBRARY SCIENCE
DOI: 10.1371/journal.pone.0248293

Keywords

-

Funding

  1. Dutch province of Limburg [FCL67723]
  2. Dutch Science Foundation (NWO) [15075]
  3. European Union [676338]

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The distribution of active Cdc42 in cells is influenced by both cell shape and Cdc42-related (in)activation parameters, leading to a potential phenomenon of reverse polarization. The findings enhance understanding of the role of cell shape in intracellular signaling.
The distribution of signaling molecules following mechanical or chemical stimulation of a cell defines cell polarization, with regions of high active Cdc42 at the front and low active Cdc42 at the rear. As reaction-diffusion phenomena between signaling molecules, such as Rho GTPases, define the gradient dynamics, we hypothesize that the cell shape influences the maintenance of the front-to-back cell polarization patterns. We investigated the influence of cell shape on the Cdc42 patterns using an established computational polarization model. Our simulation results showed that not only cell shape but also Cdc42 and Rho-related (in)activation parameter values affected the distribution of active Cdc42. Despite an initial Cdc42 gradient, the in silico results showed that the maximal Cdc42 concentration shifts in the opposite direction, a phenomenon we propose to call reverse polarization. Additional in silico analyses indicated that reverse polarization only occurred in a particular parameter value space that resulted in a balance between inactivation and activation of Rho GTPases. Future work should focus on a mathematical description of the underpinnings of reverse polarization, in combination with experimental validation using, for example, dedicated FRET-probes to spatiotemporally track Rho GTPase patterns in migrating cells. In summary, the findings of this study enhance our understanding of the role of cell shape in intracellular signaling.

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