PEER-REVIEWED PUBLICATION

2024

Matrix Confinement Modulates 3D Spheroid Sorting and Burst-like Collective Migration

Cai G, Li X, et al.

Acta Biomaterialia

University of Michigan, Carnegie Mellon University, National Taiwan University, Northeastern University

RESEARCH SUMMARY

This study investigates how mechanical confinement within 3D matrices regulates cell sorting, jamming–unjamming transitions, and burst-like collective migration in heterogeneous tumor spheroids. By systematically tuning the stiffness of collagen–alginate hydrogels, the authors show that increased matrix confinement suppresses cell sorting and collective invasion, while softer matrices permit dynamic rearrangement and migratory bursts. These findings highlight the critical role of extracellular matrix mechanics in governing tumor organization and invasive behavior in 3D cancer models.

CellScale MicroSquisher instrumentation was used to mechanically characterize collagen–alginate hydrogels by unconfined compression testing. Hydrogels were compressed while fully submerged in aqueous solution to generate stress–strain curves and calculate Young’s modulus. This CellScale-based mechanical characterization enabled precise tuning and validation of matrix stiffness used to study confinement-dependent tumor spheroid behavior.

AUTHORS

Grace Cai; Xinzhi Li; Shan-Shan Lin; Samuel J. Chen; Nicole C. Rodgers; Katherine M. Koning; Dapeng Bi; Allen P. Liu.

PUBLICATION DETAILS

JOURNAL

Acta Biomaterialia

YEAR

2024

INSTITUTIONS

University of Michigan, Carnegie Mellon University, National Taiwan University, Northeastern University

COUNTRIES

Taiwan, United States

INSTRUMENT USED

MicroSquisher

TESTING METHODS

Compression TestingHydrated and Temperature Controlled Testing

RESEARCH APPLICATIONS

Cancer MechanobiologyMechanotransductionMicrotissue and Spheroid Mechanics

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