1. The antiangiogenic efficacy of NGR-modified PEG--DSPE micelles containing paclitaxel (NGR-M-PTX) for the treatment of glioma in rats.
- Author
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Zhao, Bo-Jun, Ke, Xi-Yu, Huang, Yue, Chen, Xiao-Mei, Zhao, Xin, Zhao, Bing-Xiang, Lu, Wan-liang, Lou, Jin-Ning, Zhang, Xuan, and Zhang, Qiang
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BRAIN tumor treatment , *AMINOPEPTIDASES , *MICELLES , *PACLITAXEL , *DRUG efficacy , *ANTINEOPLASTIC agents , *CELL death , *CANCER cell proliferation , *LABORATORY rats - Abstract
Aminopeptidase N (APN), recognized by Asn-Gly-Arg (NGR) peptides, is expressed in the pericytes associated with the BBB, and the main objective of this study is to confirm the hypothesis that NGR-modified DSPE--PEG micelles containing paclitaxel (NGR-M-PTX) can bind to and kill brain tumor angiogenic blood vessels and penetrate into the brain tumor interstitial space, resulting in direct cell death. NGR-M-PTX is prepared by a thin-film hydration method. The in vitro targeting characteristics of NGR-modified micelles on BMEC (murine brain microvascular endothelial cells) were investigated. The effect of NGR-M-PTX on BMEC proliferation and the cytotoxicity of NGR-M-PTX in C6 glioma cells were also tested. The antitumor activity NGR-M-PTX was evaluated in C6 glioma tumor--bearing rats in vivo. The particle size of NGR-M-PTX was approximately 54.2 nm. The drug encapsulation efficiency of NGR-M-PTX was 82.11 ±± 2.82%. The cellular coumarin-6 level of NGR-M-coumarin-6 in the BMEC was about 2.2-fold higher than that of M-coumarin-6. BMEC proliferation was significantly inhibited by NGR-M-PTX. NGR-M-PTX had a much lower IC50 value than M-PTX and free drug. The growth of C6 glioma tumor was markedly inhibited by NGR-M-PTX compared with Taxol. In conclusion, our results show that antiangiogenic therapy using NGR-M-PTX exhibits potent in vivo antitumor activity in a C6 glioma--bearing animal model. [ABSTRACT FROM AUTHOR]
- Published
- 2011
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