Mechano-responsive hydrogel for direct stem cell manufacturing to therapy
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,...
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sg-ntu-dr.10356-1703812023-09-17T15:37:33Z Mechano-responsive hydrogel for direct stem cell manufacturing to therapy 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 Lee Kong Chian School of Medicine (LKCMedicine) School of Mechanical and Aerospace Engineering Institute of Molecular and Cell Biology, A*STAR Science::Medicine Mesenchymal Stem Cell Dynamic Mechanical Stimulation 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 in vivo. 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 FAK-ERK 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. Ministry of Education (MOE) Published version The research was supported by NUS Presidential Young Professorship, MOE Tier 1 grant, and iHT OOE award . Y.S. is supported by the NUS Research Scholarship. 2023-09-11T02:25:39Z 2023-09-11T02:25:39Z 2023 Journal Article Shou, Y., Liu, L., Liu, Q., Le, Z., Lee, K. L., Li, H., Li, X., Koh, D. Z., Wang, Y., Liu, T. M., Yang, Z., Lim, C. T., Cheung, C. & Tay, A. (2023). Mechano-responsive hydrogel for direct stem cell manufacturing to therapy. Bioactive Materials, 24, 387-400. https://dx.doi.org/10.1016/j.bioactmat.2022.12.019 2452-199X https://hdl.handle.net/10356/170381 10.1016/j.bioactmat.2022.12.019 36632503 2-s2.0-85145409506 24 387 400 en Bioactive Materials © 2023 The Authors. Published by KeAi Communications Co., Ltd. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/). application/pdf |
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Science::Medicine Mesenchymal Stem Cell Dynamic Mechanical Stimulation 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 Mechano-responsive hydrogel for direct stem cell manufacturing to therapy |
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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 in vivo. 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 FAK-ERK 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. |
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Lee Kong Chian School of Medicine (LKCMedicine) |
author_facet |
Lee Kong Chian School of Medicine (LKCMedicine) 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 |
format |
Article |
author |
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 |
author_sort |
Shou, Yufeng |
title |
Mechano-responsive hydrogel for direct stem cell manufacturing to therapy |
title_short |
Mechano-responsive hydrogel for direct stem cell manufacturing to therapy |
title_full |
Mechano-responsive hydrogel for direct stem cell manufacturing to therapy |
title_fullStr |
Mechano-responsive hydrogel for direct stem cell manufacturing to therapy |
title_full_unstemmed |
Mechano-responsive hydrogel for direct stem cell manufacturing to therapy |
title_sort |
mechano-responsive hydrogel for direct stem cell manufacturing to therapy |
publishDate |
2023 |
url |
https://hdl.handle.net/10356/170381 |
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1779156805918654464 |