Litcius/Paper detail

Disentangling the behavioural variability of confined cell migration

David B. Brückner, Alexandra Fink, Joachim O. Rädler, Chase P. Broedersz

2020Journal of The Royal Society Interface29 citationsDOIOpen Access PDF

Abstract

Cell-to-cell variability is inherent to numerous biological processes, including cell migration. Quantifying and characterizing the variability of migrating cells is challenging, as it requires monitoring many cells for long time windows under identical conditions. Here, we observe the migration of single human breast cancer cells (MDA-MB-231) in confining two-state micropatterns. To describe the stochastic dynamics of this confined migration, we employ a dynamical systems approach. We identify statistics to measure the behavioural variance of the migration, which significantly exceeds that predicted by a population-averaged stochastic model. This additional variance can be explained by the combination of an ‘ageing’ process and population heterogeneity. To quantify population heterogeneity, we decompose the cells into subpopulations of slow and fast cells, revealing the presence of distinct classes of dynamical systems describing the migration, ranging from bistable to limit cycle behaviour. Our findings highlight the breadth of migration behaviours present in cell populations.

Topics & Concepts

BistabilityPopulationVariance (accounting)Statistical physicsStochastic dynamicsBiological systemStochastic processMeasure (data warehouse)Cell migrationStochastic modellingDynamics (music)BiologyDynamical systems theoryLimit cyclePopulation modelComputer scienceLimit (mathematics)Process (computing)Human breastPopulation varianceEvolutionary biologySingle-cell analysisEconometricsMathematical Biology Tumor GrowthCellular Mechanics and InteractionsCancer Cells and Metastasis