Litcius/Paper detail

Persistence-Speed Coupling Enhances the Search Efficiency of Migrating Immune Cells

M. Reza Shaebani, Robin Jose, Ludger Santen, Luiza Stankevicins, Franziska Lautenschläger

2020Physical Review Letters34 citationsDOIOpen Access PDF

Abstract

Migration of immune cells within the human body allows them to fulfill their main function of detecting pathogens. We present experimental evidence showing the optimality of the search strategy of these cells, which is of crucial importance to achieve an efficient immune response. We find that the speed and directional persistence of migrating dendritic cells in our in vitro experiments are highly correlated, which enables them to reduce their search time. We introduce theoretically a new class of random search optimization problems by minimizing the mean first-passage time (MFPT) with respect to the strength of the coupling between influential parameters. We derive an analytical expression for the MFPT in a confined geometry and verify that the correlated motion enhances the search efficiency if the mean persistence length is sufficiently shorter than the confinement size. Our correlated search optimization approach provides an efficient searching recipe and predictive power in a broad range of correlated stochastic processes.

Topics & Concepts

Persistence (discontinuity)Coupling (piping)Persistence lengthImmune systemPhysicsBiological systemComputer scienceStatistical physicsBiologyMaterials scienceMetallurgyEngineeringImmunologyGeotechnical engineeringPolymerNuclear magnetic resonanceDiffusion and Search DynamicsImmunotherapy and Immune ResponsesArtificial Immune Systems Applications