PEER-REVIEWED PUBLICATION

2023

3D Spheroid Configurations Are Possible Indicators for Evaluating the Pathophysiology of Melanoma Cell Lines

Ohguro H, Watanabe M, et al.

Cells

Sapporo Medical University

RESEARCH SUMMARY

This study examined how 3D spheroid morphology correlates with metabolic and genetic features in human malignant melanoma (MM) cell lines. Using five melanoma lines (WM266-4, SM2-1, A375, MM418, and SK-mel-24), the researchers observed distinct 3D architectures ranging from spherical to highly deformed spheroids. These geometric differences were linked to mitochondrial respiration, glycolytic capacity, and gene expression patterns. RNA-sequencing revealed KRAS and SOX2 as master regulators of spheroid shape diversity. Drug-resistant A375DT spheroids regained circularity with elevated metabolic activity, suggesting a coupling between 3D morphology, metabolic phenotype, and oncogenic signaling.

A CellScale MicroSquisher was used as a micro-mechanical imaging platform to support and visualize live 3D melanoma spheroids during phase-contrast microscopy. The system enabled stable positioning and controlled micro-scale manipulation of spheroids, allowing quantitative assessment of spheroid geometry, deformation, and eccentricity. These measurements were essential for correlating 3D structural configuration with cellular metabolism, gene expression patterns, and drug resistance phenotypes, supporting the use of spheroid morphology as a biomechanical indicator of melanoma pathophysiology.

AUTHORS

Hiroshi Ohguro, Megumi Watanabe, Tatsuya Sato, Fumihito Hikage, Masato Furuhashi, Masae Okura, Tokimasa Hida, Hisashi Uhara.

PUBLICATION DETAILS

JOURNAL

Cells

YEAR

2023

INSTITUTIONS

Sapporo Medical University

COUNTRIES

Japan

INSTRUMENT USED

MicroSquisher

TESTING METHODS

Micro-Mechanical Testing

RESEARCH APPLICATIONS

Cancer MechanobiologyMicrotissue and Spheroid MechanicsOrganoid and Tissue Mimetic Systems

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