Publication: Development of secretome-based strategies to improve cell culture protocols in tissue engineering.
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Identifiers
Date
2022-06-11
Authors
Cases-Perera, O
Blanco-Elices, C
Chato-Astrain, J
Miranda-Fernandez, C
Campos, F
Crespo, P V
Sanchez-Montesinos, I
Alaminos, M
Martin-Piedra, M A
Garzon, I
Advisors
Journal Title
Journal ISSN
Volume Title
Publisher
Nature Publishing Group
Abstract
Advances in skin tissue engineering have promoted the development of artificial skin substitutes to treat large burns and other major skin loss conditions. However, one of the main drawbacks to bioengineered skin is the need to obtain a large amount of viable epithelial cells in short periods of time, making the skin biofabrication process challenging and slow. Enhancing skin epithelial cell cultures by using mesenchymal stem cells secretome can favor the scalability of manufacturing processes for bioengineered skin. The effects of three different types of secretome derived from human mesenchymal stem cells, e.g. hADSC-s (adipose cells), hDPSC-s (dental pulp) and hWJSC-s (umbilical cord), were evaluated on cultured skin epithelial cells during 24, 48, 72 and 120 h to determine the potential of this product to enhance cell proliferation and improve biofabrication strategies for tissue engineering. Then, secretomes were applied in vivo in preliminary analyses carried out on Wistar rats. Results showed that the use of secretomes derived from mesenchymal stem cells enhanced currently available cell culture protocols. Secretome was associated with increased viability, proliferation and migration of human skin epithelial cells, with hDPSC-s and hWJSC-s yielding greater inductive effects than hADSC-s. Animals treated with hWJSC-s and especially, hDPSC-s tended to show enhanced wound healing in vivo with no detectable side effects. Mesenchymal stem cells derived secretomes could be considered as a promising approach to cell-free therapy able to improve skin wound healing and regeneration.
Description
MeSH Terms
Humans
Tissue Engineering
Skin, Artificial
Secretome
Dental Pulp
Wound Healing
Epithelial Cells
Cell Culture Techniques
Mesenchymal Stem Cells
Umbilical Cord
Tissue Engineering
Skin, Artificial
Secretome
Dental Pulp
Wound Healing
Epithelial Cells
Cell Culture Techniques
Mesenchymal Stem Cells
Umbilical Cord
DeCS Terms
Cicatrización de heridas
Cordón Umbilical
Células Epiteliales
Células madre mesenquimatosas
Humanos
Ingeniería de tejidos
Piel artificial
Pulpa dental
Secretoma
Técnicas de cultivo de célula
Cordón Umbilical
Células Epiteliales
Células madre mesenquimatosas
Humanos
Ingeniería de tejidos
Piel artificial
Pulpa dental
Secretoma
Técnicas de cultivo de célula
CIE Terms
Keywords
Animals, Cell Culture Techniques, Cell Proliferation, Mesenchymal Stem Cells, Rats, Rats, Wistar, Secretome, Tissue Engineering
Citation
Cases-Perera O, Blanco-Elices C, Chato-Astrain J, Miranda-Fernández C, Campos F, Crespo PV, et al. Development of secretome-based strategies to improve cell culture protocols in tissue engineering. Sci Rep. 2022 Jun 15;12(1):10003.