Human dental pulp pluripotent-like stem cells promote wound healing and muscle regeneration
Abstract Background Dental pulp represents an easily accessible autologous source of adult stem cells. A subset of these cells, named dental pulp pluripotent-like stem cells (DPPSC), shows high plasticity and can undergo multiple population doublings, making DPPSC an appealing tool for tissue repair...
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| Series: | Stem Cell Research & Therapy |
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| Online Access: | http://link.springer.com/article/10.1186/s13287-017-0621-3 |
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doaj-bd2f10ecbdba4da5b586651ec18b5d052020-11-24T21:03:47ZengBMCStem Cell Research & Therapy1757-65122017-07-018112010.1186/s13287-017-0621-3Human dental pulp pluripotent-like stem cells promote wound healing and muscle regenerationEster Martínez-Sarrà0Sheyla Montori1Carlos Gil-Recio2Raquel Núñez-Toldrà3Domiziana Costamagna4Alessio Rotini5Maher Atari6Aernout Luttun7Maurilio Sampaolesi8Regenerative Medicine Research Institute, Universitat Internacional de CatalunyaRegenerative Medicine Research Institute, Universitat Internacional de CatalunyaRegenerative Medicine Research Institute, Universitat Internacional de CatalunyaRegenerative Medicine Research Institute, Universitat Internacional de CatalunyaTranslational Cardiomyology Laboratory, Stem Cell Biology and Embryology Unit, Department of Development and Regeneration, KU LeuvenTranslational Cardiomyology Laboratory, Stem Cell Biology and Embryology Unit, Department of Development and Regeneration, KU LeuvenRegenerative Medicine Research Institute, Universitat Internacional de CatalunyaCentre for Molecular and Vascular Biology, Department of Cardiovascular Sciences, KU LeuvenTranslational Cardiomyology Laboratory, Stem Cell Biology and Embryology Unit, Department of Development and Regeneration, KU LeuvenAbstract Background Dental pulp represents an easily accessible autologous source of adult stem cells. A subset of these cells, named dental pulp pluripotent-like stem cells (DPPSC), shows high plasticity and can undergo multiple population doublings, making DPPSC an appealing tool for tissue repair or maintenance. Methods DPPSC were harvested from the dental pulp of third molars extracted from young patients. Growth factors released by DPPSC were analysed using antibody arrays. Cells were cultured in specific differentiation media and their endothelial, smooth and skeletal muscle differentiation potential was evaluated. The therapeutic potential of DPPSC was tested in a wound healing mouse model and in two genetic mouse models of muscular dystrophy (Scid/mdx and Sgcb-null Rag2-null γc-null). Results DPPSC secreted several growth factors involved in angiogenesis and extracellular matrix deposition and improved vascularisation in all three murine models. Moreover, DPPSC stimulated re-epithelialisation and ameliorated collagen deposition and organisation in healing wounds. In dystrophic mice, DPPSC engrafted in the skeletal muscle of both dystrophic murine models and showed integration in muscular fibres and vessels. In addition, DPPSC treatment resulted in reduced fibrosis and collagen content, larger cross-sectional area of type II fast-glycolytic fibres and infiltration of higher numbers of proangiogenic CD206+ macrophages. Conclusions Overall, DPPSC represent a potential source of stem cells to enhance the wound healing process and slow down dystrophic muscle degeneration.http://link.springer.com/article/10.1186/s13287-017-0621-3Dental pulpStem cellsRevascularisationAngiogenesisWound healingMuscular dystrophy |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Ester Martínez-Sarrà Sheyla Montori Carlos Gil-Recio Raquel Núñez-Toldrà Domiziana Costamagna Alessio Rotini Maher Atari Aernout Luttun Maurilio Sampaolesi |
| spellingShingle |
Ester Martínez-Sarrà Sheyla Montori Carlos Gil-Recio Raquel Núñez-Toldrà Domiziana Costamagna Alessio Rotini Maher Atari Aernout Luttun Maurilio Sampaolesi Human dental pulp pluripotent-like stem cells promote wound healing and muscle regeneration Stem Cell Research & Therapy Dental pulp Stem cells Revascularisation Angiogenesis Wound healing Muscular dystrophy |
| author_facet |
Ester Martínez-Sarrà Sheyla Montori Carlos Gil-Recio Raquel Núñez-Toldrà Domiziana Costamagna Alessio Rotini Maher Atari Aernout Luttun Maurilio Sampaolesi |
| author_sort |
Ester Martínez-Sarrà |
| title |
Human dental pulp pluripotent-like stem cells promote wound healing and muscle regeneration |
| title_short |
Human dental pulp pluripotent-like stem cells promote wound healing and muscle regeneration |
| title_full |
Human dental pulp pluripotent-like stem cells promote wound healing and muscle regeneration |
| title_fullStr |
Human dental pulp pluripotent-like stem cells promote wound healing and muscle regeneration |
| title_full_unstemmed |
Human dental pulp pluripotent-like stem cells promote wound healing and muscle regeneration |
| title_sort |
human dental pulp pluripotent-like stem cells promote wound healing and muscle regeneration |
| publisher |
BMC |
| series |
Stem Cell Research & Therapy |
| issn |
1757-6512 |
| publishDate |
2017-07-01 |
| description |
Abstract Background Dental pulp represents an easily accessible autologous source of adult stem cells. A subset of these cells, named dental pulp pluripotent-like stem cells (DPPSC), shows high plasticity and can undergo multiple population doublings, making DPPSC an appealing tool for tissue repair or maintenance. Methods DPPSC were harvested from the dental pulp of third molars extracted from young patients. Growth factors released by DPPSC were analysed using antibody arrays. Cells were cultured in specific differentiation media and their endothelial, smooth and skeletal muscle differentiation potential was evaluated. The therapeutic potential of DPPSC was tested in a wound healing mouse model and in two genetic mouse models of muscular dystrophy (Scid/mdx and Sgcb-null Rag2-null γc-null). Results DPPSC secreted several growth factors involved in angiogenesis and extracellular matrix deposition and improved vascularisation in all three murine models. Moreover, DPPSC stimulated re-epithelialisation and ameliorated collagen deposition and organisation in healing wounds. In dystrophic mice, DPPSC engrafted in the skeletal muscle of both dystrophic murine models and showed integration in muscular fibres and vessels. In addition, DPPSC treatment resulted in reduced fibrosis and collagen content, larger cross-sectional area of type II fast-glycolytic fibres and infiltration of higher numbers of proangiogenic CD206+ macrophages. Conclusions Overall, DPPSC represent a potential source of stem cells to enhance the wound healing process and slow down dystrophic muscle degeneration. |
| topic |
Dental pulp Stem cells Revascularisation Angiogenesis Wound healing Muscular dystrophy |
| url |
http://link.springer.com/article/10.1186/s13287-017-0621-3 |
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