Phenotype-structuring of non-local kinetic models of cell migration driven by environmental sensing - Laboratoire Jacques-Louis Lions
Pré-Publication, Document De Travail Année : 2024

Phenotype-structuring of non-local kinetic models of cell migration driven by environmental sensing

Résumé

The capability of cells to form surface extensions, which enable them to non-locally probe the surrounding environment, plays a key role in cell migration. The existing mathematical models for collective migration of cell populations driven by this non-local form of environmental sensing rely on the simplifying assumption that cells in the population share the same cytoskeletal properties, and thus form surface extensions of the same size. To overcome this simplification, we develop a modelling framework wherein a population of migrating cells is structured by a continuous phenotypic variable that captures variability in structural properties of the cytoskeleton. The framework provides a multiscale representation of collective cell migration, from single-cell dynamics to population-level behaviours, as we start with a microscopic model that describes the dynamics of single cells in terms of stochastic processes. Next, we formally derive the mesoscopic counterpart of this model, which consists of a phenotype-structured kinetic equation for the cell distribution in each of phase and phenotype space. Then, considering an appropriately rescaled version of this kinetic equation, we formally derive the corresponding macroscopic model, which takes the form of a partial differential equation for the cell number density. To validate the formal procedure employed to derive the macroscopic model from the microscopic one, we first compare the results of numerical simulations of the two models. We then compare numerical solutions of the macroscopic model with the results of cell locomotion assays, to test the ability of the model to recapitulate qualitative features of experimental observations.
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hal-04851469 , version 1 (20-12-2024)

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  • HAL Id : hal-04851469 , version 1

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Tommaso Lorenzi, Nadia Loy, Chiara Villa. Phenotype-structuring of non-local kinetic models of cell migration driven by environmental sensing. 2024. ⟨hal-04851469⟩
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