Directed cell migration towards softer environments by Aleksi Isomursu et al.

Nat Mater. 2022 Sep;21(9):1081-1090. doi: 10.1038/s41563-022-01294-2. Epub 2022 Jul 11.


How cells sense tissue stiffness to guide cell migration is a fundamental question in development, fibrosis and cancer. Although durotaxis-cell migration towards increasing substrate stiffness-is well established, it remains unknown whether individual cells can migrate towards softer environments. Here, using microfabricated stiffness gradients, we describe the directed migration of U-251MG glioma cells towards less stiff regions. This ‘negative durotaxis’ does not coincide with changes in canonical mechanosensitive signalling or actomyosin contractility. Instead, as predicted by the motor-clutch-based model, migration occurs towards areas of ‘optimal stiffness’, where cells can generate maximal traction. In agreement with this model, negative durotaxis is selectively disrupted and even reversed by the partial inhibition of actomyosin contractility. Conversely, positive durotaxis can be switched to negative by lowering the optimal stiffness by the downregulation of talin-a key clutch component. Our results identify the molecular mechanism driving context-dependent positive or negative durotaxis, determined by a cell’s contractile and adhesive machinery.

PMID:35817964 | DOI:10.1038/s41563-022-01294-2


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