198: Mechanical Confinement and the Shape-Shifting Life of Melanoma Cells

️ Episode 198: Mechanical Confinement and the Shape-Shifting Life of Melanoma Cells

In this episode of PaperCast Base by Base, we explore how physical forces in the tumor microenvironment can push melanoma cells to switch from a pigment-producing, proliferative state into an invasive, drug-tolerant one, focusing on new work that links mechanical confinement, chromatin remodeling, and neuronal-like programs in cancer.

Study Highlights:
Using a zebrafish model of BRAFV600E-driven melanoma together with human tumor samples and single-cell transcriptomics, the authors identify a subpopulation of tumor cells at the tumor–microenvironment interface that displays elongated nuclei and a gene expression program resembling undifferentiated, neuron-like cells. In vitro confinement of human melanoma cells under a polydimethylsiloxane piston recapitulates this interface state, triggering assembly of a perinuclear cage of acetylated microtubules that protects the nucleus from mechanical stress. Mechanical confinement selectively upregulates the chromatin-bending protein HMGB2, whose increased residence time on chromatin opens neuronal and invasive gene loci and engages pathways such as Notch and BRN2 that drive a switch toward an invasive phenotype. Genetic disruption of HMGB2 in zebrafish melanomas and human melanoma cells shifts the balance back toward proliferation with larger but less invasive tumors, whereas HMGB2 overexpression enhances invasion and tolerance to BRAF and MEK inhibition in mouse xenografts.

Conclusion:
Mechanical confinement within the tumor microenvironment can rewire melanoma cells through HMGB2-dependent chromatin remodeling to favor an invasive, neuronal-like and drug-tolerant state over purely proliferative growth.

Music:
Enjoy the music based on this article at the end of the episode.

Reference:
Hunter MV, Joshi E, Bowker S, Montal E, Ma Y, Kim YH, Yang Z, Tuffery L, Li Z, Rosiek E, Browning A, Moncada R, Yanai I, Byrne H, Monetti M, de Stanchina E, Hamard P-J, Koche RP, White RM. Mechanical confinement governs phenotypic plasticity in melanoma. Nature. 2025;647:517–527. https://doi.org/10.1038/s41586-025-09445-6

License:
This episode is based on an open-access article published under the Creative Commons Attribution 4.0 International License (CC BY 4.0) – https://creativecommons.org/licenses/by/4.0/

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