Cellular Contact Guidance Emerges from Gap Avoidance

Overview

Journal Cell Rep Phys Sci

Publisher Cell Press

Date 2020 Jul 21

PMID 32685934

Citations 19

Authors

Antonetta B C Buskermolen

Tommaso Ristori

Dylan Mostert

Mark C van Turnhout

Siamak S Shishvan

Sandra Loerakker

Nicholas A Kurniawan

Vikram S Deshpande

Carlijn V C Bouten

Affiliations

Soon will be listed here.

Abstract

In the presence of anisotropic biochemical or topographical patterns, cells tend to align in the direction of these cues-a widely reported phenomenon known as "contact guidance." To investigate the origins of contact guidance, here, we created substrates micropatterned with parallel lines of fibronectin with dimensions spanning multiple orders of magnitude. Quantitative morphometric analysis of our experimental data reveals two regimes of contact guidance governed by the length scale of the cues that cannot be explained by enforced alignment of focal adhesions. Adopting computational simulations of cell remodeling on inhomogeneous substrates based on a statistical mechanics framework for living cells, we show that contact guidance emerges from anisotropic cell shape fluctuation and "gap avoidance," i.e., the energetic penalty of cell adhesions on non-adhesive gaps. Our findings therefore point to general biophysical mechanisms underlying cellular contact guidance, without the necessity of invoking specific molecular pathways.

Citing Articles

Spatial regulation of substrate adhesion directs fibroblast morphotype and phenotype.

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Dimensionality Matters: Exploiting UV-Photopatterned 2D and Two-Photon-Printed 2.5D Contact Guidance Cues to Control Corneal Fibroblast Behavior and Collagen Deposition.

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Hs27 fibroblast response to contact guidance cues.

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Shape-Morphing Photoresponsive Hydrogels Reveal Dynamic Topographical Conditioning of Fibroblasts.

Bril M, Saberi A, Jorba I, van Turnhout M, Sahlgren C, Bouten C Adv Sci (Weinh). 2023; 10(31):e2303136.

PMID: 37740666 PMC: 10625123. DOI: 10.1002/advs.202303136.

Contact Guidance Drives Upward Cellular Migration at the Mesoscopic Scale.

Chen X, Xia Y, Du W, Liu H, Hou R, Song Y Cell Mol Bioeng. 2023; 16(3):205-218.

PMID: 37456789 PMC: 10338420. DOI: 10.1007/s12195-023-00766-y.

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