Biomaterials for neural-tissue engineering — Chitosan supports the survival, migration, and differentiation of adult-derived neural stem and progenitor cells
Autor: | Alex Goraltchouk, Vanessa I. ScangaV.I. Scanga, Molly S. Shoichet, Cindi M. Morshead, Nasser NussaibaN. Nussaiba |
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Rok vydání: | 2010 |
Předmět: |
Chemistry
Organic Chemistry Central nervous system technology industry and agriculture General Chemistry medicine.disease Catalysis Neural tissue engineering Cell biology Transplantation medicine.anatomical_structure Biochemistry Precursor cell medicine Viability assay Progenitor cell Stem cell Spinal cord injury |
Zdroj: | Canadian Journal of Chemistry. 88:277-287 |
ISSN: | 1480-3291 0008-4042 |
DOI: | 10.1139/v09-171 |
Popis: | Neural precursor cells (NPCs or stem and progenitor cells) are promising in transplantation strategies to treat an injury to the central nervous system, such as a spinal cord injury (SCI), because of their ability to differentiate into neurons and glia. Transplantation studies to date have met with limited success for a number of reasons, including poor cell survival. One way to encourage cell survival in injured tissue is to provide the cells with a scaffold to enhance their survival, their integration, and potentially their differentiation into appropriate cell types. Towards this end, four amine-functionalized hydrogels were screened in vitro for adult murine NPC viability, migration, and differentiation: chitosan, poly(oligoethylene oxide dimethacrylate-co-2-amino ethyl methacrylate), blends of poly(oligoethylene oxide dimethacrylate-co-2-amino ethyl methacrylate), and poly(vinyl alcohol), and poly(glycerol dimethacrylate-co-2-amino ethyl methacrylate). The greatest cell viability was found on chitosan at all times examined, Chitosan had the greatest surface amine content and the lowest equilibrium water content, which likely contributed to the greater NPC viability observed over three weeks in culture. Only chitosan supported survival of multipotent stem cells and the differentiation of the progenitors into neurons, astrocytes, and oligodendrocytes. Plating intact NPC colonies revealed greater cell migration on chitosan relative to the other hydrogels. Importantly, long term cultures on chitosan showed no significant difference in total cell counts over time, suggesting no net cell growth. Together, these findings reveal chitosan as a promising material for the delivery of adult NPC cell-based therapies. |
Databáze: | OpenAIRE |
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