Preparation and characterization of cationic PLGA-PEGLf/DOPE nanoparticles for HO-1 gene delivery

Yuanjian Song; Zhimin Zong; Hongzhi Liu; Xiangru Wen; Dashi Qi; Yang Du; Fang Zhang; Xianyong Wei

doi:10.1007/s11595-012-0440-4

Journal of Wuhan University of Technology Materials Science Edition ›› 2012, Vol. 27 ›› Issue (2) : 217 -221. DOI: 10.1007/s11595-012-0440-4

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Preparation and characterization of cationic PLGA-PEGLf/DOPE nanoparticles for HO-1 gene delivery

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Abstract

Cationic nanoparticles (NPs) for gene delivery were successfully prepared by assembling carboxylation poly(lactic-co-glycolic acid) (PLGA), polyethylene glycol (PEG), L-α-Phosphatidylethanolamine (DOPE) and octadecyl quaternized carboxymethyl chitosans (OQCMC). Lactoferrin (Lf) was selected as a targeting ligand conjugated to PLGA via bifunctional PEG, yielding PLGA-PEG-Lf/DOPE NPs to be used for gene vectors. Fourier transform infrared spectroscopy (FTIR), UV and nuclear magnetic resonance (NMR) spectroscopy were performed to evaluate the synthesis of the vectors. The characteristics of the vectors loaded heme oxygenase (HO-1) gene were evaluated by transmission electron microscope (TEM), particle size analyser and fluorescent microscopy. The experimental results showed that the obtained vectors were spherical in shape with average particle size of 142.2 nm and zeta potentials of +16.4 mV. The vectors could protect the loaded gene from the degradation by nuclease. For 293T cells, there is high transfection efficiency of the vectors similar to liposome-2000. It can be concluded that the established cationic PLGA-PEG-Lf/DOPE NPs have potential gene delivery ability for gene therapy.

Keywords

PLGA nanoparticles / PEGylation / gene delivery / lactoferrin

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Yuanjian Song, Zhimin Zong, Hongzhi Liu, Xiangru Wen, Dashi Qi, Yang Du, Fang Zhang, Xianyong Wei. Preparation and characterization of cationic PLGA-PEGLf/DOPE nanoparticles for HO-1 gene delivery. Journal of Wuhan University of Technology Materials Science Edition, 2012, 27(2): 217-221 DOI:10.1007/s11595-012-0440-4

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References

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[1]	Mulligan R. C. The Basic Science of Gene Therapy[J]. Science, 1993, 260: 926-931.

[2]	Li S.D., Huang L. Non-viral is Superior to Viral Gene Delivery[J]. J. Controlled Release, 2007, 1233: 181-183.

[3]	Wolfert M. A., Schact E. H., Toneheva V. e. a1. Characterization of Vectors for Gene Therapy Formed by Self-assembly of DNA with Synthetic Block Copolymers[J]. Hum. Gene Ther., 1996, 7(4): 2 123-2 128.

[4]	Zaumer W., Brunner S., Busehle M. e. a1. Diferential Behavior of Lipid Based and Polycation Based Gene Transfer Systems in Transfecting Primary Human Fibroblasts: A Potential Role of Polylysine in Nuclear Transport[J]. Biochim. Biophys. Acta, 1999, 1428(1): 57-61.

[5]	Fischera D., Li Y.X., Ahlemeyerc B. e. a1. In vitro Cytotoxicity Testing of Polycations: Influence of Polymer Structure on Cell Viability and Hemolysis[J]. Biomaterials, 2003, 24(7): 1 121-1 131.

[6]	Jeon O., Lim H. W., Lee M. e. a1. Poly(l-lactide-co-glycolide) Nanospheres Conjugated with a Nuclear Localization Signal for Delivery of Plasmid DNA[J]. J. Drug Target, 2007, 15(3): 190-198.

[7]	Park Y. M., Shin B. A., Oh J. I. e. a1. Poly(L-lactic acid)/Polyethylenimine Nanoparticles as Plasmid DNA Carriers[J]. Arch. Pharm. Res., 2008, 31(1): 96-102.

[8]	Guo X.D., Song Y.L., Zheng Q. e. a1. Surface Modification of Biomimetic PLGA-(ASP-PEG) Matrix with RGD-containing Peptide: A New Non-viral Vector for Gene Transfer and Tissue Engineering[J]. J. Wuhan University of Tech.-Mate. Sci. Ed., 2006, 21(3): 41-43.

[9]	Pan H.T., Zheng Q.X., Guo X.D. TGF-beta 1 Gene-activated Matrices Regulated the Osteogenic Differentiation of BMSCs[J]. J. Wuhan University of Tech-Mate. Sci. E., 2007, 22(3): 431-435.

[10]	Luten J., Van Nostrum C. F., De Smedt S. C. e. a1. Biodegradable Polymers as Non-viral Carriers for Plasmid DNA Delivery[J]. J. Controlled Release, 2008, 126(2): 97-110.

[11]	Hao J., Hu Z.M., Zheng Q. e. a1. Biomineralization of the Surface of PLGA-(ASP-PEG) Modified with the K16 and RGD-containing Peptide[J]. J. Wuhan University of Tech.-Mate. Sci. Ed., 2009, 24(5): 768-771.

[12]	Mao S.R., Shuai X.T., Unger F. e. a1. Synthesis, Characterization and Cytotoxicity of Poly(ethylene glycol)-graft-trimethyl Chitosan Block Copolymers[J]. Biomaterials, 2005, 26(32): 6 343-6 356.

[13]	Huang R.Q., Qu Y.H., Ke W. e. a1. Efficient Gene Delivery Targeted to the Brain Using a Transferrin-conjugated Polyethyleneglycol-modified Polyamidoamine Dendrimer[J]. FASEB J., 2007, 21: 1117-1125.

[14]	Singh M., Fang J.H., Kazzaz J. e. a1. A Modified Process for Preparing Cationic Polylactide-co-glycolide Microparticles with Adsorbed DNA[J]. Int. J. Pharm., 2006, 327(1–2): 1-5.

[15]	Basarkar A., Devineni D., Palaniappan R. e. a1. Preparation, Characterization, Cytotoxicity and Transfection Efficiency of Poly(dl-Lactide-co-glycolide) and Poly(dl-lactic acid) Cationic Nanoparticles for Controlled Delivery of Plasmid DNA[J]. J. Singh. Int. J. Pharm., 2007, 343(1–2): 247-254.

[16]	Liang X.F., Wang H.J., Luo H. e. a1. Preparation and Characterization of Novel Biodegradable Multifunctional Microspheres[J]. Acta Chim. Sinica, 2008, 66(19): 2 178-2 183.

[17]	Liang X.F., Tian H., Luo H. e. a1. Novel Quaternized Chitosan and Polymeric Micelles with Cross-linked Ionic Cores for Prolonged Release of Minocycline[J]. J. Biomater. Sci., Polym. Ed., 2009, 20(1): 115-131.

[18]	Lu W., Zhang Y., Tan Y. e. a1. Cationic Albumin-conjugated Pegylated Nanoparticles as Novel Drug Carrier for Brain Delivery[J]. J. Controlled Release, 2005, 107(3): 428-448.

[19]	Ellmann G. L. Tissue Sulfhydryl Groups[J]. Arch. Biochem. Biophys., 1959, 82(1): 70-77.

[20]	Liang X.F., Wang H.J., Luo H. e. a1. Characterization of Novel Multifunctional Cationic Polymeric Liposomes Formed from Octadecyl Quaternized Carboxymethyl Chitosan/cholesterol and Drug Encapsulation[J]. Langmuir, 2008, 24(14): 7 147-7 153.

[21]	Choi S. H., Jin S. E., Lee M. K. e. a1. Novel Cationic Solid Lipid Nanoparticles Enhanced p53 Gene Rransfer to Lung Cancer Cells[J]. Eur. J. Pharm. Biopharm., 2008, 68(3): 545-554.