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Branched oligomerization of cell-permeable peptides markedly enhances the transduction efficiency of adenovirus into mesenchymal stem cells

Authors
Park, S-HDoh, J.Park, S. I.Lim, J. Y.Kim, S. M.Youn, J-IJin, H-TSeo, S-HSong, M-YSung, S. Y.Kim, M.Hwang, S. J.Choi, J-MLee, S-KLee, H. Y.Lim, C. L.Chung, Y. J.Yang, D.Kim, H-NLee, Z. H.Choi, K. Y.Jeun, S-SSung, Y. C.
Issue Date
Aug-2010
Publisher
Nature Publishing Group
Keywords
mesenchymal stem cell; cell-permeable peptide; oligomerization; recombinant adenovirus; BMP2; BDNF
Citation
Gene Therapy, v.17, no.8, pp 1052 - 1061
Pages
10
Indexed
SCI
SCIE
SCOPUS
Journal Title
Gene Therapy
Volume
17
Number
8
Start Page
1052
End Page
1061
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/174369
DOI
10.1038/gt.2010.58
ISSN
0969-7128
1476-5462
Abstract
Cell-permeable peptides (CPPs) promote the transduction of nonpermissive cells by recombinant adenovirus (rAd) to improve the therapeutic efficacy of rAd. In this study, branched oligomerization of CPPs significantly enhanced the transduction of human mesenchymal stem cells (MSCs) by rAd in a CPP type-independent manner. In particular, tetrameric CPPs increased transduction efficiency at 3000-5000-fold lower concentrations than did monomeric CPPs. Although branched oligomerization of CPPs also increases cytotoxicity, optimal concentrations of tetrameric CPPs required for maximum transduction are at least 300-1000-fold lower than those causing 50% cytotoxicity. Furthermore, although only similar to 60% of MSCs were maximally transduced at 500 mM of monomeric CPPs, >95% of MSCs were transduced with 0.1 mM of tetrameric CPPs. Tetrameric CPPs also significantly increased the formation and net surface charge of CPP/rAd complexes, as well as the binding of rAd to cell membranes at a greater degree than did monomeric CPPs, followed by rapid internalization into MSCs. In a critical-size calvarial defect model, the inclusion of tetrameric CPPs in ex vivo transduction of rAd expressing bone morphogenetic protein 2 into MSCs promoted highly mineralized bone formation. In addition, MSCs that were transduced with rAd expressing brain-derived neurotrophic factor in the presence of tetrameric CPPs improved functional recovery in a spinal cord injury model. These results demonstrated the potential for tetrameric CPPs to provide an innovative tool for MSC-based gene therapy and for in vitro gene delivery to MSCs.
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