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Fiber Microarchitecture in Interpenetrating Collagen–Alginate Hydrogel with Tunable Mechanical Plasticity Regulates Tumor Cell Migration

Wei Zhao, Jingyi Liu, Yuanbo Jia, Meng Lei, Songbai Zhang, Xi Pan, Yufei Ma, Min Zhang, Jinlu Ma, Lin Wang, Hui Guo, Feng Xu

2023Advanced Healthcare Materials13 citationsDOI

Abstract

The fiber structures of tumor microenvironment (TME) are well-known in regulating tumor cell behaviors, and the plastic remolding of TME has recently been suggested to enhance tumor metastasis as well. However, the interrelationship between the fiber microarchitecture and matrix plasticity is inextricable by existing in vitro models. The individual roles of fiber microarchitecture and matrix plasticity in tuning tumor cell behaviors remain elusive. This study develops an interpenetrating collagen-alginate hydrogel platform with independently tunable matrix plasticity and fiber microarchitecture through an interpenetrating strategy of alginate networks and collagen I networks. With this hydrogel platform, it is demonstrated that tumor cells in high plasticity hydrogels are more extensive and aggressive than in low plasticity hydrogels and fiber structures only have influence in high plasticity hydrogels. The study further elucidates the underlying mechanisms through analyzing the distribution of forces within the matrix and tracking the focal adhesions (FAs) and finds that highly plastic hydrogels can activate the FAs formation, whereas the maturation and stability of FAs are dominated by fiber dispersion. This study not only establishes new ideas on how cells interact with TME cues but also would help to further finely tailor engineered hydrogel platforms for studying tumor behaviors in vitro.

Topics & Concepts

Self-healing hydrogelsMaterials scienceTumor microenvironmentPlasticityFiberMatrix (chemical analysis)Tumor cellsComposite materialBiologyCancer researchPolymer chemistry3D Printing in Biomedical ResearchCellular Mechanics and InteractionsCancer Cells and Metastasis