1. Arginine-tocopherol bioconjugated lipid vesicles for selective pTRAIL delivery and subsequent apoptosis induction in glioblastoma cells
- Author
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Chien-Wen Chang, Srilakshmi V. Patri, Yi-Ting Wu, Li-Fang Wang, Yu-Lun Lo, and Venkatesh Ravula
- Subjects
Materials science ,Genetic enhancement ,Tocopherols ,Apoptosis ,Bioengineering ,02 engineering and technology ,Gene delivery ,Arginine ,Transfection ,010402 general chemistry ,01 natural sciences ,Biomaterials ,Annexin ,Cell Line, Tumor ,Humans ,MTT assay ,Cytotoxicity ,Liposome ,021001 nanoscience & nanotechnology ,Lipids ,Molecular biology ,0104 chemical sciences ,Mechanics of Materials ,Cell culture ,Liposomes ,Glioblastoma ,0210 nano-technology ,Plasmids - Abstract
The incorporation of specific therapeutic gene into glioblastoma offers potent therapeutic strategy to treat the disease. Non-viral gene delivery vectors are of particular interest due to their tuneable transfection efficiency and easy scale-up. Herein, we demonstrate successful delivery of plasmid encoding tumor necrosis factor (TNF)-related apoptosis-inducing ligand (pTRAIL) using arginine-conjugated tocopherol lipid (AT) nanovesicles into glioblastoma cell lines. Another cationic lipid, glycine-conjugated tocopherol lipid (GT) having glycine in the head group region is also synthesized as a control lipid. Both lipid-derived liposomes effectively condensed the pDNA and the corresponding biomacromolecular assemblies (lipoplexes) are efficiently transfected into different cell lines. AT-based liposomes exhibit higher transfection efficacy in various cell lines, particularly selective in glioma cell lines. At an optimized N/P ratio, both the liposomal formulations show low cytotoxicity. AT-based lipoplexes have superior cellular uptake in U87 than the control lipid GT. The expression of TRAIL protein regulated death receptor and apoptosis signaling pathway is assayed by western blot using transfection of AT-based/pTRAIL into U87 cell lines. Induction of apoptosis in U87 cells exposed to AT-based/pTRAIL plasmid is evaluated by MTT assay as well as Annexin V-propidium iodide dual-staining assay. All results indicate that the developed AT-based/pTRAIL system offers a potentially safe and efficient therapeutic strategy for glioblastoma gene therapy.
- Published
- 2021
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