Minicircle microporation-based non-viral gene delivery improved the targeting of mesenchymal stem cells to an injury site

Cited 25 time in scopus
Metadata Downloads
Title
Minicircle microporation-based non-viral gene delivery improved the targeting of mesenchymal stem cells to an injury site
Author(s)
Ji-Young Mun; Keun Koo Shin; Ohsuk Kwon; Y T Lim; Doo-Byoung Oh
Bibliographic Citation
Biomaterials, vol. 101, pp. 310-320
Publication Year
2016
Abstract
Genetic engineering approaches to improve the therapeutic potential of mesenchymal stem cells (MSCs) have been made by viral and non-viral gene delivery methods. Viral methods have severe limitations in clinical application because of potential oncogenic, pathogenic, and immunogenic risks, while non-viral methods have suffered from low transfection efficiency and transient weak expression as MSCs are hard-to-transfect cells. In this study, minicircle, which is a minimal expression vector free of bacterial sequences, was employed for MSC transfection as a non-viral gene delivery method. The conventional cationic liposome method was not effective for MSC transfection as it resulted in very low transfection efficiency (less than 5%). Microporation, a new electroporation method, greatly improved the transfection efficiency of minicircles by up to 66% in MSCs without any significant loss of cell viability. Furthermore, minicircle microporation generated much stronger and prolonged transgene expression compared with plasmid microporation. When MSCs microporated with minicircle harboring firefly luciferase gene were subcutaneously injected to mice, the bioluminescence continued for more than a week, whereas the bioluminescence of the MSCs induced by plasmid microporation rapidly decreased and disappeared in mice within three days. By minicircle microporation as a non-viral gene delivery, MSCs engineered to overexpress CXCR4 showed greatly increased homing ability toward an injury site as confirmed through in vivo bioluminescence imaging in mice. In summary, the engineering of MSCs through minicircle microporation is expected to enhance the therapeutic potential of MSCs in clinical applications
Keyword
Bioluminescence imagingCXCR4Mesenchymal stem cellsMicroporationMinicircleNon-viral gene delivery
ISSN
0142-9612
Publisher
Elsevier
DOI
http://dx.doi.org/10.1016/j.biomaterials.2016.05.057
Type
Article
Appears in Collections:
Division of Bio Technology Innovation > SME Support Center > 1. Journal Articles
Aging Convergence Research Center > 1. Journal Articles
Files in This Item:
  • There are no files associated with this item.


Items in OpenAccess@KRIBB are protected by copyright, with all rights reserved, unless otherwise indicated.