Mechanically primed cells transfer memory to fibrous matrices for persistent invasion

Author:

Almeida José,Mathur Jairaj,Lee Ye Lim,Sarker Bapi,Pathak AmitORCID

Abstract

AbstractIn disease and development, cells sense and migrate across mechanically dissimilar environments. We investigated whether mechanical memory of past environments empowers cells to navigate new, three-dimensional environments. Here, we show that cells primed by stiff matrices apply higher forces, compared to soft-primed cells, to accumulate and align collagen fibers towards sustained invasion. This priming advantage persists in dense or stiffened collagen. Through an energy-minimization model, we elucidate how memory-laden cells overcome mechanosensing of softer or challenging environments via a cell-matrix transfer of memory. Consistent with model predictions, depletion of α-catenin and YAP hamper coordinated forces and cellular memory required for collagen remodeling before invasion. We release tension in collagen fibers via laser ablation and disable fiber remodeling by lysyl-oxidase inhibition; both of which disrupt cell-to-matrix transfer of memory and reduce invasion. These results have implications for cancer, fibrosis, and aging, where potential matrix memory may generate prolonged cellular response.One-Sentence SummaryCell invasion across mechanically dissimilar environments is mediated by force-based storage and extraction of cell and matrix memory.

Publisher

Cold Spring Harbor Laboratory

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