English

Geometric friction directs cell migration

Soft Condensed Matter 2015-06-17 v1 Cell Behavior

Abstract

In the absence of environmental cues, a migrating cell performs an isotropic random motion. Recently, the breaking of this isotropy has been observed when cells move in the presence of asymmetric adhesive patterns. However, up to now the mechanisms at work to direct cell migration in such environments remain unknown. Here, we show that a non-adhesive surface with asymmetric micro-geometry consisting of dense arrays of tilted micro-pillars can direct cell motion. Our analysis reveals that most features of cell trajectories, including the bias, can be reproduced by a simple model of active Brownian particle in a ratchet potential, which we suggest originates from a generic elastic interaction of the cell body with the environment. The observed guiding effect, independent of adhesion, is therefore robust and could be used to direct cell migration both in vitro and in vivo.

Keywords

Cite

@article{arxiv.1310.4129,
  title  = {Geometric friction directs cell migration},
  author = {M. Le Berre and Yan-Jun Liu and J. Hu and P. Maiuri and O. Bénichou and R. Voituriez and Y. Chen and M. Piel},
  journal= {arXiv preprint arXiv:1310.4129},
  year   = {2015}
}

Comments

To appear in PRL. Supplementary Information file available on request

R2 v1 2026-06-22T01:47:36.973Z