Enhanced Transfection by Antioxidative Polymeric Gene Carrier that Reduces Polyplex-Mediated Cellular Oxidative Stress
- Authors
- Lee, MS[Lee, Min Sang]; Kim, NW[Kim, Nak Won]; Lee, K[Lee, Kyuri]; Kim, H[Kim, Hongtae]; Jeong, JH[Jeong, Ji Hoon]
- Issue Date
- Jun-2013
- Publisher
- SPRINGER/PLENUM PUBLISHERS
- Keywords
- antioxidative transfection system; nanotoxicity; n
- Citation
- PHARMACEUTICAL RESEARCH, v.30, no.6, pp.1642 - 1651
- Indexed
- SCIE
SCOPUS
- Journal Title
- PHARMACEUTICAL RESEARCH
- Volume
- 30
- Number
- 6
- Start Page
- 1642
- End Page
- 1651
- URI
- https://scholarworks.bwise.kr/skku/handle/2021.sw.skku/60331
- DOI
- 10.1007/s11095-013-1009-4
- ISSN
- 0724-8741
- Abstract
- To test the hypothesis in which polyplex-induced oxidative stress may affect overall transfection efficiency, an antioxidative transfection system minimizing cellular oxidative stress was designed for enhanced transfection. An amphiphilic copolymer (PEI-PLGA) was synthesized and used as a micelle-type gene carrier containing hydrophobic antioxidant, alpha-tocopherol. Cellular oxidative stress and the change of mitochondrial membrane potential after transfection was measured by using a fluorescent probe (H(2)DCFDA) and lipophilic cationic probe (JC-1), respectively. Transfection efficiency was determined by measuring a reporter gene (luciferase) expression level. The initial transfection study with conventional PEI/plasmid DNA polyplex showed significant generation of reactive oxygen species (ROS). The PEI-PLGA copolymer successfully carried out the simultaneous delivery of alpha-tocopherol and plasmid DNA (PEI-PLGA/Toco/pDNA polyplex) into cells, resulting in a significant reduction in cellular ROS generation after transfection and helped to maintain the mitochondrial membrane potential (Delta I). In addition, the transfection efficiency was dramatically increased using the antioxidative transfection system. This work showed that oxidative stress would be one of the important factors that should be considered in designing non-viral gene carriers and suggested a possible way to reduce the carrier-mediated oxidative stress, which consequently leads to enhanced transfection.
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- Appears in
Collections - Pharmacy > Department of Pharmacy > 1. Journal Articles
- Science > Department of Biological Science > 1. Journal Articles
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