Promoting engraftment of transplanted neural stem cells/progenitors using biofunctionalised electrospun scaffolds
Date
2012
Authors
Wang, Ting-Yi
Forsythe, John S.
Nisbet, David
Parish, Clare L.
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Publisher
Pergamon-Elsevier Ltd
Abstract
With the brain's limited capacity for repair, new and innovative approaches are required to promote regeneration. While neural transplantation for a number of neural disease/injuries have been demonstrated, major limitations in the field include poor cell survival and integration. This, in part, is due to the non-conducive environment of the adult brain, failing to provide adequate chemical and physical support for new neurons. Here we examine the capacity of fibrous poly ε-caprolactone (PCL) scaffolds, biofunctionalised with immobilised glial cell-derived neurotrophic factor (GDNF), to influence primary cortical neural stem cells/progenitors in vitro and enhance integration of these cells following transplantation into the brain parenchyma. Immobilisation of GDNF was confirmed prior to in vitro culturing and at 28 days after implantation into the brain, demonstrating long-term delivery of the protein. In vitro, we demonstrate that PCL with immobilised GDNF (iGDNF) significantly enhances cell viability and neural stem cell/progenitor proliferation compared to conventional 2-dimensional cultureware. Upon implantation, PCL scaffolds including iGDNF enhanced the survival, proliferation, migration, and neurite growth of transplanted cortical cells, whilst suppressing inflammatory reactive astroglia.
Description
Keywords
Keywords: CNS; E; ED; ELISA; GDNF; GFP; IGDNF; Neural stem cell; NSC; PCL; SGDNF; Brain; Cathode ray tubes; Cytology; Neurons; Plasticity; Polycaprolactone; Scaffolds; Stem cells; Transplantation (surgical); Scaffolds (biology); glial cell line derived neurotrophic CNS; CRT; E; ED; ELISA; GDNF; GFP; IGDNF; Neural stem cell; NSC; PCL; Plasticity; Polycaprolactone; Scaffold; SGDNF; Transplantation
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Source
Biomaterials
Type
Journal article
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2037-12-31