Cyclic Stretch Promotes Cellular Reprogramming Process through Cytoskeletal‐Nuclear Mechano‐Coupling and Epigenetic Modification

重编程 机械转化 诱导多能干细胞 细胞生物学 机械敏感通道 表观遗传学 细胞骨架 生物 再生医学 化学 细胞 干细胞 遗传学 胚胎干细胞 基因 离子通道 受体
作者
Sung‐Min Park,Jung‐Hwan Lee,Jung‐Hwan Lee,Kwang Sung Ahn,Hye Won Shim,Hye Won Shim,Ji‐Young Yoon,Jeongeun Hyun,Jun Hee Lee,Jun Hee Lee,Sunyoung Jang,Kyung Hyun Yoo,Yoon‐Kwan Jang,Tae‐Jin Kim,Hyun Kyu Kim,Hyun Kyu Kim,Man Ryul Lee,Jun‐Hyeog Jang,Hosup Shim,Hosup Shim
出处
期刊:Advanced Science [Wiley]
卷期号:10 (32): e2303395-e2303395 被引量:34
标识
DOI:10.1002/advs.202303395
摘要

Advancing the technologies for cellular reprogramming with high efficiency has significant impact on regenerative therapy, disease modeling, and drug discovery. Biophysical cues can tune the cell fate, yet the precise role of external physical forces during reprogramming remains elusive. Here the authors show that temporal cyclic-stretching of fibroblasts significantly enhances the efficiency of induced pluripotent stem cell (iPSC) production. Generated iPSCs are proven to express pluripotency markers and exhibit in vivo functionality. Bulk RNA-sequencing reveales that cyclic-stretching enhances biological characteristics required for pluripotency acquisition, including increased cell division and mesenchymal-epithelial transition. Of note, cyclic-stretching activates key mechanosensitive molecules (integrins, perinuclear actins, nesprin-2, and YAP), across the cytoskeletal-to-nuclear space. Furthermore, stretch-mediated cytoskeletal-nuclear mechano-coupling leads to altered epigenetic modifications, mainly downregulation in H3K9 methylation, and its global gene occupancy change, as revealed by genome-wide ChIP-sequencing and pharmacological inhibition tests. Single cell RNA-sequencing further identifies subcluster of mechano-responsive iPSCs and key epigenetic modifier in stretched cells. Collectively, cyclic-stretching activates iPSC reprogramming through mechanotransduction process and epigenetic changes accompanied by altered occupancy of mechanosensitive genes. This study highlights the strong link between external physical forces with subsequent mechanotransduction process and the epigenetic changes with expression of related genes in cellular reprogramming, holding substantial implications in the field of cell biology, tissue engineering, and regenerative medicine.
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