Highly Deformable Phototunable Viscoelastic Fluid Interface Modulates Cellular Adaptive Wetting Behavior

Junhong Zhou; Hongxin Wang; Jun Nakanishi

doi:10.1002/adfm.202414534

論文 Highly Deformable Phototunable Viscoelastic Fluid Interface Modulates Cellular Adaptive Wetting Behavior

Junhong Zhou ; Hongxin Wang ; Jun Nakanishi

Adv Funct Materials - 2025 - Zhou - Highly Def.pdf

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Junhong Zhou, Hongxin Wang, Jun Nakanishi. Highly Deformable Phototunable Viscoelastic Fluid Interface Modulates Cellular Adaptive Wetting Behavior. Advanced Functional Materials. 2025, 35 (7), . https://doi.org/10.1002/adfm.202414534

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(abstract)

A fluid-based scaffold with tunable viscoelasticity has been developed to investigate its impact on the cell adhesion process. The platform is based on the water–perfluorocarbon interface decorated with diacetylene-based phospholipid membranes (IPLMs), whose viscoelasticity can be systematically manipulated by photocrosslinking. Further introduction of a cell-adhesive peptide and fluorescent tag allows cell adhesion at the highly deformable fluid interface and confocal observation of dynamic cell–model ECM interactions. Cells seeded at the IPLM exhibit so-called adaptive wetting, where the interface first deforms toward the out-of-plane direction before cellular dimensional changes, followed by cellular flattening and interfacial restoration. Furthermore, the quantification of these parameters reveals a biphasic response against the crosslinking levels, which indicates that the cell-ECM viscosity balance determines adaptive wetting phenotypes.

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