A fluidic substrate behaving as a hydrophobic viscoelastic liquid was designed as a tool to investigate the role of matrix viscosity on the alteration of breast cancer cellular fate. The fluidity level of fluidic substrate was tuned by modulating the molecular weight of poly(ε-caprolactone-co-D,L-lactide). MCF-7 cells responded to the change in fluidity level of fluidic substrates by forming weak attachment. On high-fluidity substrate, MCF-7 cells formed 3D aggregates, while coalesced on low-fluidity substrate. More importantly, the fluidic substrate mechanically promoted senescence of MCF-7 cells regardless the fluidity level of substrate.
- Mazaya Najmina
- Koichiro Uto
- Mitsuhiro Ebara