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  • Title: Degradable copolymer based on amphiphilic N-octyl-N-quatenary chitosan and low-molecular weight polyethylenimine for gene delivery.
    Author: Liu C, Zhu Q, Wu W, Xu X, Wang X, Gao S, Liu K.
    Journal: Int J Nanomedicine; 2012; 7():5339-50. PubMed ID: 23071395.
    Abstract:
    BACKGROUND: Chitosan shows particularly high biocompatibility and fairly low cytotoxicity. However, chitosan is insoluble at physiological pH. Moreover, it lacks charge, so shows poor transfection. In order to develop a new type of gene vector with high transfection efficiency and low cytotoxicity, amphiphilic chitosan was synthesized and linked with low-molecular weight polyethylenimine (PEI). METHODS: We first synthesized amphiphilic chitosan - N-octyl-N-quatenary chitosan (OTMCS), then prepared degradable PEI derivates by cross-linking low-molecular weight PEI with amphiphilic chitosan to produce a new polymeric gene vector (OTMCS-PEI). The new gene vector was characterized by various physicochemical methods. We also determined its cytotoxicity and gene transfecton efficiency in vitro and in vivo. RESULTS: The vector showed controlled degradation. It was very stable and showed excellent buffering capacity. The particle sizes of the OTMCS-PEI/DNA complexes were around 150-200 nm with proper zeta potentials from 10 mV to 30 mV. The polymer could protect plasmid DNA from being digested by DNase I at a concentration of 2.25 U DNase I/μg DNA. Furthermore, they were resistant to dissociation induced by 50% fetal bovine serum and 1100 μg/mL sodium heparin. OTMCS-PEI revealed lower cytotoxicity, even at higher doses. Compared with PEI 25 KDa, the OTMCS-PEI/DNA complexes also showed higher transfection efficiency in vitro and in vivo. CONCLUSION: OTMCS-PEI was a potential candidate as a safe and efficient gene vector for gene therapy.
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