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Micropattern‐Based Stem Cell Gym: Mechanical Memory Enhanced Stemness Maintenance of Human Dental Pulp Stem Cells and Nerve Regeneration

Chiyu Li, Fanqi Meng, Zhijie Yang, Jiang Peng, Yuwei Guo, Jing Na, Qiusheng Shi, Yu Liu, Yu Wang, Lisha Zheng, Yubo Fan

2023Advanced Functional Materials10 citationsDOIOpen Access PDF

Abstract

Abstract Dental pulp stem cells (DPSCs) which are derived from the neural crest are promising tools in stem cell therapy in the clinic. However, they tend to lose their multi‐lineage potency spontaneously during long‐term expansion in vitro. A micropattern‐based system is developed to train DPSCs with 1024 µm 2 and aspect ratios of 1:2 and 1:4, which enhances their stemness and differentiation potential. This mechanical memory induced by micropattern would also rescue the pluripotency of long‐term expansion DPSCs. Micropatterns remodel the cytoskeleton and nuclear morphology, soften the cells, and induce the mitochondria into an immature state. Micropattern also activates extracellular related kinase, signal transducer, and activator of transcription 3, and inhibits Yes‐associated protein nuclear localization to enhance the stemness of DPSCs. In vivo implantation proves that DPSCs mechanically trained by micropattern could promote nerve regeneration in rats with peripheral nerve injury. A micropattern‐based approach is provided as a stem cell gym that absents exogenous growth factors to enhance the stemness and regenerative properties of DPSCs. It may shed light on future stem cell therapy.

Topics & Concepts

Dental pulp stem cellsStem cellCell biologyMaterials scienceRegeneration (biology)BiologyCellular Mechanics and Interactions3D Printing in Biomedical ResearchPluripotent Stem Cells Research
Micropattern‐Based Stem Cell Gym: Mechanical Memory Enhanced Stemness Maintenance of Human Dental Pulp Stem Cells and Nerve Regeneration | Litcius