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Mathematical model for spatial segregation of the Rho-family GTPases based on inhibitory crosstalk

Jilkine, A., Maree, A.F.M. and Edelstein-Keshet, L. 2007. Mathematical model for spatial segregation of the Rho-family GTPases based on inhibitory crosstalk. Bulletin of Mathematical Biology 69 (6) , pp. 1943-1978. 10.1007/s11538-007-9200-6

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Abstract

Cdc42, Rac, and Rho are small GTPases known to play a central role in signal transduction to the actin cytoskeleton. These proteins regulate cell motility, by affecting nucleation, uncapping, and depolymerization of actin filaments, and acto-myosin contractility. Studies of crosstalk and mutual feedbacks in these three proteins have led to a number of proposals for their interaction. At the same time, observations of the spatio-temporal dynamics of Rho-family proteins give evidence of spatial polarization and mutual exclusion between Cdc42/Rac and Rho. In this paper, we formulate a mathematical model to account for such observations, based on the known underlying biology of these proteins. We first investigate which of the crosstalk schemes proposed in the literature is consistent with observed dynamics, and then derive a simple model that can correctly describe these dynamics (assuming crosstalk is mediated via Rho GEFs). We show that cooperativity is an essential ingredient in the interactions of the proteins. The co-occurrence of a stable rest state with the possibility of fast spatial segregation can be related to bistability in a set of underlying ODEs in which the inactive forms of these proteins are fixed at a constant level. We show that the fast diffusion of the inactive forms is essential for stabilizing the transition fronts in the PDE formulation of the model, leading to robust spatial polarization, rather than traveling waves.

Item Type: Article
Date Type: Published Online
Status: Published
Schools: Biosciences
Publisher: Springer Verlag (Germany)
ISSN: 0092-8240
Date of Acceptance: 12 January 2007
Last Modified: 18 Feb 2019 08:46
URI: https://orca.cardiff.ac.uk/id/eprint/119496

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