PEER-REVIEWED PUBLICATION

2023

Physical Properties and Cellular Metabolic Characteristics of 3D Spheroids Are Possible Definitive Indices for the Biological Nature of Cancer-Associated Fibroblasts

Nishikiori N, Takada K, et al.

Cells

Sapporo Medical University

RESEARCH SUMMARY

This study elucidates mechanical and metabolic differences among cancer-associated fibroblasts (CAFs) derived from oral squamous cell carcinoma (OSCC) specimens at distinct malignancy stages. Four CAF lines (CAFS1, CAFS2, SCC17F, and MO-1000) were isolated, cultured as 3D spheroids, and compared with non-cancer fibroblasts. The authors demonstrated that CAFs exhibit lower mitochondrial respiration and increased glycolytic capacity (indicative of a ‘reverse Warburg effect’) and that spheroid stiffness correlates with tumor differentiation state. Ultrastructural and trypsin resistance assays further revealed ECM density and cohesion differences between CAF subtypes. Collectively, 3D spheroid stiffness and metabolic parameters are proposed as definitive indices for CAF subtype characterization and tumor aggressiveness.

Mechanical characterization of individual living 3D spheroids was performed using a CellScale MicroSquisher to determine microscale compressive stiffness. Each spheroid was compressed to 50% of its diameter over 20 seconds while measuring force (µN) and diameter (µm) via an integrated micro-pressure sensor and monitoring camera. Stiffness was quantified as Force/50%-Diameter, ranging from 1–2 µN/µm for non-cancer fibroblasts and markedly higher for CAF spheroids, particularly MO-1000 (~16 µN/µm). These precise measurements linked CAF stiffness to the degree of tumor differentiation, validating MicroSquisher utility for assessing biomechanical heterogeneity in 3D fibroblast models.

AUTHORS

Nami Nishikiori, Kohichi Takada, Tatsuya Sato, Sho Miyamoto, Megumi Watanabe, Yui Hirakawa, Shohei Sekiguchi, Masato Furuhashi, Akira Yorozu, Kenichi Takano, Akihiro Miyazaki, Hiromu Suzuki, Hiroshi Ohguro.

PUBLICATION DETAILS

JOURNAL

Cells

YEAR

2023

INSTITUTIONS

Sapporo Medical University

COUNTRIES

Japan

INSTRUMENT USED

MicroSquisher

TESTING METHODS

Compression TestingMicro-Mechanical TestingUltra Low Force Testing

RESEARCH APPLICATIONS

Cancer MechanobiologyMechanotransductionMicrotissue and Spheroid MechanicsOrganoid and Tissue Mimetic Systems

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