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- Title
Block copolymer conjugated Au-coated Fe<sub>3</sub>O<sub>4</sub> nanoparticles as vectors for enhancing colloidal stability and cellular uptake.
- Authors
Junbo Li; Sheng Zou; Jiayu Gao; Ju Liang; Huiyun Zhou; Lijuan Liang; Wenlan Wu
- Abstract
Background: Polymer surface-modified inorganic nanoparticles (NPs) provide a multifunctional platform for assisting gene delivery. Rational structure design for enhancing colloidal stability and cellular uptake is an important strategy in the development of safe and highly efficient gene vectors. Results: Heterogeneous Au-coated Fe3O4 (Fe3O4@Au) NPs capped by polyethylene glycol-b-poly1-(3-aminopropyl)-3-(2-methacryloyloxy propylimidazolium bromine) (PEG-b-PAMPImB-Fe3O4@Au) were prepared for DNA loading and magnetofection assays. The Au outer shell of the NPs is an effective platform for maintaining the superparamagnetism of Fe3O4 and for PEG-b-PAMPImB binding via Au-S covalent bonds. By forming an electrostatic complex with DNA at the inner PAMPImB shell, the magnetic nanoplexes offer steric protection from the outer corona PEG, thereby promoting high colloidal stability. Transfection efficiency assays in human esophageal cancer cells (EC109) show that the nanoplexes have high transfection efficiency at a short incubation time in the presence of an external magnetic field, due to increased cellular internalization via magnetic acceleration. Finally, after transfection with the magnetic nanoplexes EC109 cells acquire magnetic properties, thus allowing for selective separation of transfected cells. Conclusion: Precisely engineered architectures based on neutral-cationic block copolymer-conjugated heterogeneous NPs provide a valuable strategy for improving the applicability and efficacy of synthesized vectors.
- Subjects
IRON oxide nanoparticles; BLOCK copolymers; COLLOIDAL stability; GOLD nanoparticles; CONJUGATED polymers
- Publication
Journal of Nanobiotechnology, 2017, Vol 15, p1
- ISSN
1477-3155
- Publication type
Article
- DOI
10.1186/s12951-017-0290-5