Sciatic nerve injury presents an ongoing challenge in reconstructive surgery. Local stem cell application has recently been suggested as a possible novel therapy. In the present study we evaluated the potential of a chitosan/silk fibroin scaffold serving as a delivery vehicle for adipose-derived stem cells and as a structural framework for the injured nerve regeneration. The cell-loaded scaffolds were used to regenerate rat sciatic nerve across a 10 mm surgically-induced sciatic nerve injury. The functional nerve recovery was assessed by both walking track and histology analysis. Results showed that the reconstruction of the injured sciatic nerve had been significantly enhanced with restoration of nerve continuity and function recovery in the cell-loaded scaffold groups, and their target skeletal muscle had been extensively reinnervated. This study raises a potential possibility of using the newly developed nerve grafts as a promising alternative for nerve regeneration.
The major difficulty in Schwann cell (SC) purification is contamination by fibroblasts, which usually become the predominant cell type during SC enrichment in vitro. Current reported measures are mainly limited by either high cost or complicated procedures with low cell yields or purity. Our objectives have been to develop an efficient, easily applicable, rapid method to obtain highly purified SC from the sciatic nerve of newborn rats. The method involves two rounds of purification to eliminate fibroblasts with the novel combined use of cytosine-B-arabinoside hydrochloride (Ara-C) action and differential cell detachment. Cultured cells were first treated with Ara-C for 24 h. The medium was replaced with the growth medium containing 20 ng/ml human heregulin1-beta1 extracellular domain (HRG1-beta1 ECD). After another 48 h in culture, the cells were treated with 0.05% trypsin, following which SCs, but not fibroblasts, were easily detached from the dishes. The advantage of this method is that the two steps can eliminate the fibroblasts complementarily. Ara-C eliminates most of the fibroblasts growing among SCs, whereas the differential cell detachment technique removes the remainder growing under or interacting with the SC layer. A purity of more than 99% SCs has been obtained, as confirmed by cell morphology and immunostaining. The purified SCs have a spindle-shaped, bipolar, and sometimes tripolar morphology, align in fascicles, and express S-100. The whole procedure takes about 10 days from primary culture to the purified SCs growing to confluence (only half the time reported previously). This protocol provides an alternative method for investigating peripheral nerve regeneration and potentially could be used to produce enough SCs to construct artificial nerve scaffolds in vitro.
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