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Integrins as biomechanical sensors of the microenvironment

2019; Nature Portfolio; Volume: 20; Issue: 8 Linguagem: Inglês

10.1038/s41580-019-0134-2

1471-0080

Zanetta Kechagia, Johanna Ivaska, Pere Roca‐Cusachs,

Cancer Cells and Metastasis

Integrins, and integrin-mediated adhesions, have long been recognized to provide the main molecular link attaching cells to the extracellular matrix (ECM) and to serve as bidirectional hubs transmitting signals between cells and their environment. Recent evidence has shown that their combined biochemical and mechanical properties also allow integrins to sense, respond to and interact with ECM of differing properties with exquisite specificity. Here, we review this work first by providing an overview of how integrin function is regulated from both a biochemical and a mechanical perspective, affecting integrin cell-surface availability, binding properties, activation or clustering. Then, we address how this biomechanical regulation allows integrins to respond to different ECM physicochemical properties and signals, such as rigidity, composition and spatial distribution. Finally, we discuss the importance of this sensing for major cell functions by taking cell migration and cancer as examples. Integrin extracellular matrix receptors establish contacts between the cell interior and the cell microenvironment. Integrins are subjected to complex biochemical and mechanical regulation, which allows cells to respond to extracellular matrix with different physicochemical properties and fine-tunes cell behaviour.