Literature DB >> 33660145

Spots, stripes, and spiral waves in models for static and motile cells : GTPase patterns in cells.

Yue Liu1,2, Elisabeth G Rens3,4, Leah Edelstein-Keshet3.   

Abstract

The polarization and motility of eukaryotic cells depends on assembly and contraction of the actin cytoskeleton and its regulation by proteins called GTPases. The activity of GTPases causes assembly of filamentous actin (by GTPases Cdc42, Rac), resulting in protrusion of the cell edge. Mathematical models for GTPase dynamics address the spontaneous formation of patterns and nonuniform spatial distributions of such proteins in the cell. Here we revisit the wave-pinning model for GTPase-induced cell polarization, together with a number of extensions proposed in the literature. These include introduction of sources and sinks of active and inactive GTPase (by the group of A. Champneys), and negative feedback from F-actin to GTPase activity. We discuss these extensions singly and in combination, in 1D, and 2D static domains. We then show how the patterns that form (spots, waves, and spirals) interact with cell boundaries to create a variety of interesting and dynamic cell shapes and motion.

Entities:  

Keywords:  GTPase; Intracellular signaling; Local perturbation analysis; Pattern formation; Static and moving boundary computation; wave-pinning

Mesh:

Substances:

Year:  2021        PMID: 33660145      PMCID: PMC7929972          DOI: 10.1007/s00285-021-01550-0

Source DB:  PubMed          Journal:  J Math Biol        ISSN: 0303-6812            Impact factor:   2.259


  24 in total

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2.  Coupling mechanical tension and GTPase signaling to generate cell and tissue dynamics.

Authors:  Cole Zmurchok; Dhananjay Bhaskar; Leah Edelstein-Keshet
Journal:  Phys Biol       Date:  2018-04-30       Impact factor: 2.583

3.  Regimes of wave type patterning driven by refractory actin feedback: transition from static polarization to dynamic wave behaviour.

Authors:  W R Holmes; A E Carlsson; L Edelstein-Keshet
Journal:  Phys Biol       Date:  2012-07-11       Impact factor: 2.583

4.  The three-dimensional dynamics of actin waves, a model of cytoskeletal self-organization.

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Journal:  Biophys J       Date:  2009-04-08       Impact factor: 4.033

5.  The biophysical nature of cells: potential cell behaviours revealed by analytical and computational studies of cell surface mechanics.

Authors:  Ramiro Magno; Verônica A Grieneisen; Athanasius Fm Marée
Journal:  BMC Biophys       Date:  2015-05-12       Impact factor: 4.778

6.  How cells integrate complex stimuli: the effect of feedback from phosphoinositides and cell shape on cell polarization and motility.

Authors:  Athanasius F M Marée; Verônica A Grieneisen; Leah Edelstein-Keshet
Journal:  PLoS Comput Biol       Date:  2012-03-01       Impact factor: 4.475

7.  Modelling cell polarization driven by synthetic spatially graded Rac activation.

Authors:  William R Holmes; Benjamin Lin; Andre Levchenko; Leah Edelstein-Keshet
Journal:  PLoS Comput Biol       Date:  2012-06-21       Impact factor: 4.475

8.  Analysis of a minimal Rho-GTPase circuit regulating cell shape.

Authors:  William R Holmes; Leah Edelstein-Keshet
Journal:  Phys Biol       Date:  2016-07-19       Impact factor: 2.583

9.  A mass conserved reaction-diffusion system captures properties of cell polarity.

Authors:  Mikiya Otsuji; Shuji Ishihara; Carl Co; Kozo Kaibuchi; Atsushi Mochizuki; Shinya Kuroda
Journal:  PLoS Comput Biol       Date:  2007-04-30       Impact factor: 4.475

10.  Excitable RhoA dynamics drive pulsed contractions in the early C. elegans embryo.

Authors:  Jonathan B Michaux; François B Robin; William M McFadden; Edwin M Munro
Journal:  J Cell Biol       Date:  2018-10-01       Impact factor: 10.539
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3.  On the influence of cell shape on dynamic reaction-diffusion polarization patterns.

Authors:  K Eroumé; A Vasilevich; S Vermeulen; J de Boer; A Carlier
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Review 4.  Modern perspectives on near-equilibrium analysis of Turing systems.

Authors:  Andrew L Krause; Eamonn A Gaffney; Philip K Maini; Václav Klika
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5.  Spatial models of pattern formation during phagocytosis.

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Review 6.  From the Matrix to the Nucleus and Back: Mechanobiology in the Light of Health, Pathologies, and Regeneration of Oral Periodontal Tissues.

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