Non-Viral Engineering of Skin Precursor-Derived Schwann Cells for Enhanced NT-3 Production in Adherent and Microcarrier Culture

Abstract

Genetic engineering of stem cells and their derivatives has the potential to enhance their regenerative capabilities. Here, dendrimer- and lipofection-based approaches were used for non-viral neurotrophin-3 (NT-3) over-expression in Schwann cells differentiated from skin precursors (SKP-SCs). A variety of dendrimers were first tested for transfection efficiency on HEK 293T cells, with PAMAMNH2 G4 found most effective and used subsequently for SKP-SCs transfection. Plasmid-based expression resulted in increased NT-3 release from SKP-SCs in both adherent and microcarrier-based culture. In a proof-of-concept study, the microcarrier/SKP-SCs were implanted into the injured nerve, and transfected cells were shown to detach, integrate into the nerve tissue and associate with regenerating axons. Virus-free systems for transient neurotrophin expression are a feasible and biologically safe option to increase the therapeutic value of stem cells and stem cell-derived cells in nerve repair strategies. Further work to develop bioprocesses for expansion of SKP-SCs on microcarriers in bioreactors is still needed.