1. Tissue engineering for neurodegenerative diseases using human amniotic membrane and umbilical cord
- Author
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Nieves Doménech, Anahí Sanluis-Verdes, María Jesús Manso-Revilla, Jacinto Sanchez-Ibañez, Antonio Manuel Castro-Castro, María Fraga-Mariño, Jorge Pombo-Otero, Maria Esther Rendal-Vázquez, and Namibia Sanluis-Verdes
- Subjects
0301 basic medicine ,Neurogenesis ,Biomedical Engineering ,Biology ,Regenerative medicine ,Umbilical Cord ,Biomaterials ,03 medical and health sciences ,0302 clinical medicine ,Tissue engineering ,Humans ,Amnion ,Wharton Jelly ,Cells, Cultured ,Cell Proliferation ,Neurons ,Transplantation ,Decellularization ,Tissue Engineering ,Tissue Scaffolds ,Mesenchymal stem cell ,Epithelial Cells ,Mesenchymal Stem Cells ,Neurodegenerative Diseases ,Amniotic stem cells ,Cell Biology ,Cord lining ,Nerve Regeneration ,Cell biology ,030104 developmental biology ,Amniotic epithelial cells ,Immunology ,Female ,Stem cell ,030217 neurology & neurosurgery - Abstract
Regenerative medicine, based on the use of stem cells, scaffolds and growth factors, has the potential to be a good approach for restoring damaged tissues of the central nervous system. This study investigated the use of human amniotic mesenchymal stem cells (hAMSC), human amniotic epithelial stem cells (hAESC), and human Wharton's jelly mesenchymal stem cells (hWJMSC) derived from human umbilical cord as a source of stem cells, and the potential of the human amniotic membrane (HAM) as a scaffold and/or source of growth factors to promote nerve regeneration. The hAMSC and hAESC obtained from HAM and the hWJMSC from umbilical cords were cultured in induction medium to obtain neural-like cells. The morphological differentiation of hAMSC, hAESC and hWJMSC into neural-like cells was evident after 4-5 days, when they acquired an elongated and multipolar shape, and at 21 days, when they expressed neural and glial markers. On other way, the HAM was completely decellularized without affecting the components of the basement membrane or the matrix. Subsequently, hAMSC, hAESC and hWJMSC differentiated into neural-like cells were seeded onto the decellularized HAM, maintaining their morphology. Finally, conditioned media from the HAM allowed proliferation of hAMSC, hAESC and hWJMSC differentiated to neural-like cells. Both HAM and umbilical cord are biomaterials with great potential for use in regenerative medicine for the treatment of neurodegenerative diseases.
- Published
- 2016