English

Force-driven growth of intercellular junctions

Biological Physics 2017-10-11 v1 Soft Condensed Matter Cell Behavior Tissues and Organs

Abstract

Mechanical force regulates the formation and growth of cell-cell junctions. Cadherin is a prominent homotypic cell adhesion molecule that plays a crucial role in establishment of intercellular adhesion. It is known that the transmitted force through the cadherin-mediated junctions directly correlates with the growth and enlargement of the junctions. In this paper, we propose a physical model for the structural evolution of cell-cell junctions subjected to pulling tractions, using the Bell-Dembo-Bongard thermodynamic model. Cadherins have multiple adhesive states and may establish slip or catch bonds depending on the Ca 2+ concentration. We conducted a comparative study between the force-dependent behavior of clusters of slip and catch bonds. The results show that the clusters of catch bonds feature some hallmarks of cell mechanotransduction in response to the pulling traction. This is a passive thermodynamic response and is entirely controlled by the effect of mechanical work of the pulling force on the free energy landscape of the junction.

Keywords

Cite

@article{arxiv.1710.03325,
  title  = {Force-driven growth of intercellular junctions},
  author = {Mohammad Tehrani and Alireza Sarvestani},
  journal= {arXiv preprint arXiv:1710.03325},
  year   = {2017}
}

Comments

11 pages, 12 figures, 2 tables

R2 v1 2026-06-22T22:08:09.794Z