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Soft topographical patterns trigger a stiffness-dependent cellular response to contact guidance

Jordi Comelles, Vanesa Fernández‐Majada, Verónica Acevedo, Beatriz Rebollo-Calderón, Elena Martínez

2023Materials Today Bio10 citationsDOIOpen Access PDF

Abstract

models of aligned extracellular matrix fibers because they induce cell elongation, alignment, and migration through a phenomenon known as contact guidance. This process, which involves the orientation of focal adhesions, F-actin, and microtubule cytoskeleton along the direction of the grooves, has been primarily studied on hard materials of non-physiological stiffness. But how it unfolds when the stiffness of the grooves varies within the physiological range is less known. Here we show that substrate stiffness modulates the cellular response to topographical contact guidance. We find that for fibroblasts, while focal adhesions and actin respond to topography independently of the stiffness, microtubules show a stiffness-dependent response that regulates contact guidance. On the other hand, both clusters and single breast carcinoma epithelial cells display stiffness-dependent contact guidance, leading to more directional and efficient migration when increasing substrate stiffness. These results suggest that both matrix stiffening and alignment of extracellular matrix fibers cooperate during directional cell migration, and that the outcome differs between cell types depending on how they organize their cytoskeletons.

Topics & Concepts

StiffnessExtracellular matrixCytoskeletonFocal adhesionCell migrationMotilityElongationMicrotubuleStiffeningMaterials scienceBiophysicsActinMatrix (chemical analysis)CellCell biologyChemistryBiologyComposite materialUltimate tensile strengthBiochemistryCellular Mechanics and InteractionsSkin and Cellular Biology ResearchCell Adhesion Molecules Research