Multimodal mechano-microscopy reveals mechanical phenotypes of breast cancer spheroids in three dimensions

Alireza Mowla, Matt S. Hepburn, Jiayue Li, Danielle Vahala, Sebastian E. Amos, Liisa M. Hirvonen, Rowan W. Sanderson, Philip Wijesinghe, Samuel Maher, Yu Suk Choi*, Brendan F. Kennedy*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

Abstract

Cancer cell invasion relies on an equilibrium between cell deformability and the biophysical constraints imposed by the extracellular matrix (ECM). However, there is little consensus on the nature of the local biomechanical alterations in cancer cell dissemination in the context of three-dimensional (3D) tumor microenvironments (TMEs). While the shortcomings of two-dimensional (2D) models in replicating in situ cell behavior are well known, 3D TME models remain underutilized because contemporary mechanical quantification tools are limited to surface measurements. Here, we overcome this major challenge by quantifying local mechanics of cancer cell spheroids in 3D TMEs. We achieve this using multimodal mechano-microscopy, integrating optical coherence microscopy-based elasticity imaging with confocal fluorescence microscopy. We observe that non-metastatic cancer spheroids show no invasion while showing increased peripheral cell elasticity in both stiff and soft environments. Metastatic cancer spheroids, however, show ECM-mediated softening in a stiff microenvironment and, in a soft environment, initiate cell invasion with peripheral softening associated with early metastatic dissemination. This exemplar of live-cell 3D mechanotyping supports that invasion increases cell deformability in a 3D context, illustrating the power of multimodal mechano-microscopy for quantitative mechanobiology in situ.
Original languageEnglish
Article number036113
Number of pages14
JournalAPL Bioengineering
Volume8
Issue number3
Early online date9 Sept 2024
DOIs
Publication statusPublished - Sept 2024

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