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. 2025 Feb;24(2):312-322.
doi: 10.1038/s41563-024-02038-0. Epub 2024 Nov 1.

Cell tumbling enhances stem cell differentiation in hydrogels via nuclear mechanotransduction

Manish Ayushman  1 Georgios Mikos #  2 Xinming Tong #  3 Sauradeep Sinha  1 Eunice Lopez-Fuentes  4 Sarah Jones  5 Pamela C Cai  2 Hung-Pang Lee  3 Ashby J Morrison  6 Andrew Spakowitz  2 Sarah C Heilshorn  7 Alejandro Sweet-Cordero  4 Fan Yang  8   9
Affiliations

Cell tumbling enhances stem cell differentiation in hydrogels via nuclear mechanotransduction

Manish Ayushman et al. Nat Mater. 2025 Feb.

Abstract

Cells can deform their local niche in three dimensions via whole-cell movements such as spreading, migration or volume expansion. These behaviours, occurring over hours to days, influence long-term cell fates including differentiation. Here we report a whole-cell movement that occurs in sliding hydrogels at the minutes timescale, termed cell tumbling, characterized by three-dimensional cell dynamics and hydrogel deformation elicited by heightened seconds-to-minutes-scale cytoskeletal and nuclear activity. Studies inhibiting or promoting the cell tumbling of mesenchymal stem cells show that this behaviour enhances differentiation into chondrocytes. Further, it is associated with a decrease in global chromatin accessibility, which is required for enhanced differentiation. Cell tumbling also occurs during differentiation into other lineages and its differentiation-enhancing effects are validated in various hydrogel platforms. Our results establish that cell tumbling is an additional regulator of stem cell differentiation, mediated by rapid niche deformation and nuclear mechanotransduction.

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Conflict of interest statement

Competing interests: The authors declare no competing interests.

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