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Collective durotaxis along a self-generated stiffness gradient in vivo

Adam Shellard and Roberto Mayor ()
Additional contact information
Adam Shellard: University College London
Roberto Mayor: University College London

Nature, 2021, vol. 600, issue 7890, 690-694

Abstract: Abstract Collective cell migration underlies morphogenesis, wound healing and cancer invasion1,2. Most directed migration in vivo has been attributed to chemotaxis, whereby cells follow a chemical gradient3–5. Cells can also follow a stiffness gradient in vitro, a process called durotaxis3,4,6–8, but evidence for durotaxis in vivo is lacking6. Here we show that in Xenopus laevis the neural crest—an embryonic cell population—self-generates a stiffness gradient in the adjacent placodal tissue, and follows this gradient by durotaxis. The gradient moves with the neural crest, which is continually pursuing a retreating region of high substrate stiffness. Mechanistically, the neural crest induces the gradient due to N-cadherin interactions with the placodes and senses the gradient through cell–matrix adhesions, resulting in polarized Rac activity and actomyosin contractility, which coordinates durotaxis. Durotaxis synergizes with chemotaxis, cooperatively polarizing actomyosin machinery of the cell group to prompt efficient directional collective cell migration in vivo. These results show that durotaxis and dynamic stiffness gradients exist in vivo, and gradients of chemical and mechanical signals cooperate to achieve efficient directional cell migration.

Date: 2021
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DOI: 10.1038/s41586-021-04210-x

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