Matrix viscoelasticity controls epithelial cell mechanobiology through dimensionality

Abstract: In recent years, matrix viscoelasticity has emerged as a potent regulator of fundamental cellular processes and has been implicated in promoting cancer progression. Alongside viscoelasticity, additional ECM cues have been shown to influence migration decision-making of cancer cells, and spatial confinement is now considered as a potential regulator of metastasis. However, our understanding of these complex processes predominantly relies on purely elastic hydrogels, and the exact relationship between matrix vis… Show more

“…These processes are in accordance with literature describing cell interaction with stiff 2D viscoelastic substrates. Indeed, our group has demonstrated that cell motility is reduced in epithelial cells in response to enhanced substrate stress relaxation at E > 1kPa 45 . Similarly, at stiffness E > 1kPa, we have shown that viscoelasticity reduces cell spreading area, molecular clutch engagement and YAP nuclear translocation, which are all processes involved in bone remodelling.…”

Piezo1 is a mechanosensor of soft matrix viscoelasticity

“…These processes are in accordance with literature describing cell interaction with stiff 2D viscoelastic substrates. Indeed, our group has demonstrated that cell motility is reduced in epithelial cells in response to enhanced substrate stress relaxation at E > 1kPa 45 . Similarly, at stiffness E > 1kPa, we have shown that viscoelasticity reduces cell spreading area, molecular clutch engagement and YAP nuclear translocation, which are all processes involved in bone remodelling.…”

Piezo1 is a mechanosensor of soft matrix viscoelasticity