Murine pluripotent stem cells derived scaffold-free cartilage grafts from a micro-cavitary hydrogel platform
By means of appropriate cell type and scaffold, tissue-engineering approaches aim to construct grafts for cartilage repair. Pluripotent stem cells especially induced pluripotent stem cells (iPSCs) are of promising cell candidates due to the pluripotent plasticity and abundant cell source. We explore...
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sg-ntu-dr.10356-846982020-03-07T11:35:28Z Murine pluripotent stem cells derived scaffold-free cartilage grafts from a micro-cavitary hydrogel platform Fu, Jiayin Wang, Dong-An He, Pengfei School of Chemical and Biomedical Engineering Scaffold-free Hydrogel By means of appropriate cell type and scaffold, tissue-engineering approaches aim to construct grafts for cartilage repair. Pluripotent stem cells especially induced pluripotent stem cells (iPSCs) are of promising cell candidates due to the pluripotent plasticity and abundant cell source. We explored three dimensional (3D) culture and chondrogenesis of murine iPSCs (miPSCs) on an alginate-based micro-cavity hydrogel (MCG) platform in pursuit of fabricating synthetic-scaffold-free cartilage grafts. Murine embryonic stem cells (mESCs) were employed in parallel as the control. Chondrogenesis was fulfilled using a consecutive protocol via mesoderm differentiation followed by chondrogenic differentiation; subsequently, miPSC and mESC-seeded constructs were further respectively cultured in chondrocyte culture (CC) medium. Alginate phase in the constructs was then removed to generate a graft only comprised of induced chondrocytic cells and cartilaginous extracellular matrix (ECMs). We found that from the mESC-seeded constructs, formation of intact grafts could be achieved in greater sizes with relatively fewer chondrocytic cells and abundant ECMs; from miPSC-seeded constructs, relatively smaller sized cartilaginous grafts could be formed by cells with chondrocytic phenotype wrapped by abundant and better assembled collagen type II. This study demonstrated successful creation of pluripotent stem cells-derived cartilage/chondroid graft from a 3D MCG interim platform. By the support of materials and methodologies established from this study, particularly given the autologous availability of iPSCs, engineered autologous cartilage engraftment may be potentially fulfilled without relying on the limited and invasive autologous chondrocytes acquisition. MOE (Min. of Education, S’pore) 2016-12-28T09:20:59Z 2019-12-06T15:49:44Z 2016-12-28T09:20:59Z 2019-12-06T15:49:44Z 2016 Journal Article He, P., Fu, J., & Wang, D.-A. (2016). Murine pluripotent stem cells derived scaffold-free cartilage grafts from a micro-cavitary hydrogel platform. Acta Biomaterialia, 35, 87-97. 1742-7061 https://hdl.handle.net/10356/84698 http://hdl.handle.net/10220/41958 10.1016/j.actbio.2016.02.026 en Acta Biomaterialia © 2016 Acta Materialia Inc. (published by Elsevier). 11 p. |
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Scaffold-free Hydrogel |
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Scaffold-free Hydrogel Fu, Jiayin Wang, Dong-An He, Pengfei Murine pluripotent stem cells derived scaffold-free cartilage grafts from a micro-cavitary hydrogel platform |
| description |
By means of appropriate cell type and scaffold, tissue-engineering approaches aim to construct grafts for cartilage repair. Pluripotent stem cells especially induced pluripotent stem cells (iPSCs) are of promising cell candidates due to the pluripotent plasticity and abundant cell source. We explored three dimensional (3D) culture and chondrogenesis of murine iPSCs (miPSCs) on an alginate-based micro-cavity hydrogel (MCG) platform in pursuit of fabricating synthetic-scaffold-free cartilage grafts. Murine embryonic stem cells (mESCs) were employed in parallel as the control. Chondrogenesis was fulfilled using a consecutive protocol via mesoderm differentiation followed by chondrogenic differentiation; subsequently, miPSC and mESC-seeded constructs were further respectively cultured in chondrocyte culture (CC) medium. Alginate phase in the constructs was then removed to generate a graft only comprised of induced chondrocytic cells and cartilaginous extracellular matrix (ECMs). We found that from the mESC-seeded constructs, formation of intact grafts could be achieved in greater sizes with relatively fewer chondrocytic cells and abundant ECMs; from miPSC-seeded constructs, relatively smaller sized cartilaginous grafts could be formed by cells with chondrocytic phenotype wrapped by abundant and better assembled collagen type II. This study demonstrated successful creation of pluripotent stem cells-derived cartilage/chondroid graft from a 3D MCG interim platform. By the support of materials and methodologies established from this study, particularly given the autologous availability of iPSCs, engineered autologous cartilage engraftment may be potentially fulfilled without relying on the limited and invasive autologous chondrocytes acquisition. |
| author2 |
School of Chemical and Biomedical Engineering |
| author_facet |
School of Chemical and Biomedical Engineering Fu, Jiayin Wang, Dong-An He, Pengfei |
| format |
Article |
| author |
Fu, Jiayin Wang, Dong-An He, Pengfei |
| author_sort |
Fu, Jiayin |
| title |
Murine pluripotent stem cells derived scaffold-free cartilage grafts from a micro-cavitary hydrogel platform |
| title_short |
Murine pluripotent stem cells derived scaffold-free cartilage grafts from a micro-cavitary hydrogel platform |
| title_full |
Murine pluripotent stem cells derived scaffold-free cartilage grafts from a micro-cavitary hydrogel platform |
| title_fullStr |
Murine pluripotent stem cells derived scaffold-free cartilage grafts from a micro-cavitary hydrogel platform |
| title_full_unstemmed |
Murine pluripotent stem cells derived scaffold-free cartilage grafts from a micro-cavitary hydrogel platform |
| title_sort |
murine pluripotent stem cells derived scaffold-free cartilage grafts from a micro-cavitary hydrogel platform |
| publishDate |
2016 |
| url |
https://hdl.handle.net/10356/84698 http://hdl.handle.net/10220/41958 |
| _version_ |
1681046338759819264 |