Preparation,physicochemical properties and anti-tumor activity of polymeric micelles of one gemcitabine lipid derivative
10.3867/j.issn.1000-3002.2014.03.017
- VernacularTitle:吉西他滨脂质衍生物聚合物胶束的制备及其理化性质和抗肿瘤活性
- Author:
Jing ZUO
;
Ming YANG
;
Miao LI
;
Lina DU
;
Yiguang JIN
- Publication Type:Journal Article
- Keywords:
ge mcitabine;
lipid derivatives;
polymeric micelles;
antineoplastic agents
- From:
Chinese Journal of Pharmacology and Toxicology
2014;(3):408-414
- CountryChina
- Language:Chinese
-
Abstract:
OBJECTIVE Topreparealipidderivativeofgemcitabine(Gem)anditspolymericmi-celles to overcome the disadvantages of Gem.METHODS N-benzyl-3′-acetyl-gemcitabine(BAG)was synthesized.A BAG-loaded poloxamer polymeric micelle (BAG∶poloxamer 188 =10∶1 ,mol/mol)was prepared using an injection method.The micelles were characterized with a laser particle size and elec-tric charge instru ment and negatively-stained trans mission electron microscopy.Hu man breast cancer cells MCF-7 were cultured with Gem or BAG polymeric micelles of 5,10,20,30,50,70,90 μmol·L-1 for 24,48 and 72 h,respectively.The inhibitory rate of cells was measured with an MTT method.The MCF-7 cytotoxicity of BAG polymeric micelles was investigated.A pharmacodynamic study was per-formed on the mice bearing mouse hepatocellular cancer cells H22.Intravenous (iv)and oral (ig)ad-ministration was used at the dose of Ge m 40 mg·kg -1 or BAG polymeric micelles 62 mg·kg -1 .The mice were administered on the 1 st,4th and 7th day and sacrificed on the 8th day.Tumor inhibitory rates were measured.RESULTS TheBAGstructurewasidentifiedbythinlayerchromatograph,1Hand13C NMR,infrared ray chromatograph and mass spectrum.The appearance of BAG micelles was a slightly blue suspension.The micelles were spheres according to the electron microscopic observation.Their size was 62.82 nm and the zeta potential was -18.8 mV.The half inhibition concentration (IC50)of Gem and BAG polymeric micelles was 40.6 and 90.0 μmol·L-1 ,5.0 and 14.9 μmol·L-1 ,5.0 and 1 3.6 μmol·L-1 at 24,48 and 72 h,respectively according to the MTT results.According to the in vivo results,compared with the tumor model group,Gem (ig),Gem (iv)and BAG polymeric micelles (iv and ig)had significant effect on the tumor weight of H22 cell xenograft mice (P<0.01 ).As for anti-tumor efficiency,BAG polymeric micelles (ig)were better than Gem (ig)(P<0.05);BAG polymeric micelles (iv)were better than BAG polymeric micelles (ig)(P<0.05),and BAG polymeric micelles (iv)were almostequaltoGem(iv).CONCLUSION ThelipidderivativeofGemcanbeloadedinthepoloxamer 1 88 polymeric micelles.BAG polymeric micelles show in vitro MCF-7 cell inhibition and in vivo inhibition of mouse H22 xerografts;iv or ig.BAG polymeric micelles (ig)show better anti-tumor effect than Gem (ig),indicating that BAG polymeric micelles are a promising novel anti-tumor oral preparation.
