用于直接干细胞制造以用于治疗的机械响应性水凝胶。

Mechano-responsive hydrogel for direct stem cell manufacturing to therapy.

作者信息

Shou Yufeng, Liu Ling, Liu Qimin, Le Zhicheng, Lee Khang Leng, Li Hua, Li Xianlei, Koh Dion Zhanyun, Wang Yuwen, Liu Tong Ming, Yang Zheng, Lim Chwee Teck, Cheung Christine, Tay Andy

机构信息

Department of Biomedical Engineering, National University of Singapore, 117583, Singapore.

Institute for Health Innovation & Technology, National University of Singapore, 117599, Singapore.

出版信息

Bioact Mater. 2023 Jan 2;24:387-400. doi: 10.1016/j.bioactmat.2022.12.019. eCollection 2023 Jun.

DOI:10.1016/j.bioactmat.2022.12.019

PMID:36632503

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9817177/

Abstract

Bone marrow-derived mesenchymal stem cell (MSC) is one of the most actively studied cell types due to its regenerative potential and immunomodulatory properties. Conventional cell expansion methods using 2D tissue culture plates and 2.5D microcarriers in bioreactors can generate large cell numbers, but they compromise stem cell potency and lack mechanical preconditioning to prepare MSC for physiological loading expected . To overcome these challenges, in this work, we describe a 3D dynamic hydrogel using magneto-stimulation for direct MSC manufacturing to therapy. With our technology, we found that dynamic mechanical stimulation (DMS) enhanced matrix-integrin β1 interactions which induced MSCs spreading and proliferation. In addition, DMS could modulate MSC biofunctions including directing MSC differentiation into specific lineages and boosting paracrine activities (e.g., growth factor secretion) through YAP nuclear localization and pathway. With our magnetic hydrogel, complex procedures from MSC manufacturing to final clinical use, can be integrated into one single platform, and we believe this 'all-in-one' technology could offer a paradigm shift to existing standards in MSC therapy.

摘要

骨髓间充质干细胞（MSC）由于其再生潜能和免疫调节特性，是目前研究最为活跃的细胞类型之一。使用二维组织培养板和生物反应器中的2.5D微载体的传统细胞扩增方法可以产生大量细胞，但这些方法会损害干细胞的效力，并且缺乏为预期的生理负荷准备MSC的机械预处理。为了克服这些挑战，在这项工作中，我们描述了一种使用磁刺激的3D动态水凝胶，用于直接制造用于治疗的MSC。通过我们的技术，我们发现动态机械刺激（DMS）增强了基质-整合素β1的相互作用，从而诱导了MSC的铺展和增殖。此外，DMS可以调节MSC的生物功能，包括通过YAP核定位和[相关信号]通路指导MSC分化为特定谱系以及增强旁分泌活性（例如生长因子分泌）。借助我们的磁性水凝胶，从MSC制造到最终临床应用的复杂过程可以整合到一个单一平台中，并且我们相信这种“一体化”技术可能会给MSC治疗的现有标准带来范式转变。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8f24/9817177/db5c2f0adb12/ga1.jpg

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用于直接干细胞制造以用于治疗的机械响应性水凝胶。

Mechano-responsive hydrogel for direct stem cell manufacturing to therapy.

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