Remodeling of cytoskeleton, chromatin, and gene expression during mechanical rejuvenation of aged human dermal fibroblasts

Author(s)

Sornapudi, Trinadha Rao; Yuan, Luezhen; Braunger, Jana M; Uhler, Caroline; Shivashankar, GV

Abstract

Aging is associated with a progressive decline in cellular function. To reset the aged cellular phenotype, various reprogramming approaches, including mechanical routes, have been explored. However, the epigenetic mechanisms underlying cellular rejuvenation are poorly understood. Here, we studied the cytoskeletal, genome-wide chromatin and transcriptional changes in young, aged, and mechanically rejuvenated fibroblasts using immunofluorescence, RNA sequencing, and Hi-C experiments. The mechanically rejuvenated aged fibroblasts, that had partially reset their transcription to a younger cell state, showed a local reorganization of the interchromosomal contacts and lamina-associated domains. Interestingly, the observed chromatin reorganization correlated with the transcriptional changes. Immunofluorescence experiments in the rejuvenated state confirmed increased actomyosin contractility like younger fibroblasts. In addition, the rejuvenated contractile properties were maintained over multiple cell passages. Overall, our results give an overview of how changes in the cytoskeleton, chromatin, and gene activity are connected to aging and rejuvenation.

Date issued

2025-01-01

URI

https://hdl.handle.net/1721.1/165441

Department

Broad Institute of MIT and Harvard
Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science

Journal

Molecular Biology of the Cell

Publisher

American Society for Cell Biology (ASCB)

Citation

Sornapudi, Trinadha Rao, Yuan, Luezhen, Braunger, Jana M, Uhler, Caroline and Shivashankar, GV. 2025. "Remodeling of cytoskeleton, chromatin, and gene expression during mechanical rejuvenation of aged human dermal fibroblasts." Molecular Biology of the Cell, 36 (1).

Version: Final published version