Abstract
Biodegradable polymer nanoparticle drug delivery systems are characterized by targeted drug delivery, improved pharmacokinetic and biodistribution, enhanced drug stability and lowered side effects; these drug delivery systems are widely used for delivery of cytotoxic agents. The galactosylated chitosan (GC)/5-fluorouracil (5-FU) nanoparticle is a nanomaterial made by coupling GC, a polymer known to have the advantages described above, and 5-FU. The GC/5-FU nanoparticle is a sustained release system, it was showed that the peak time, half-life time, mean residence time (MRT) and area of under curve (AUC) of GC/5-FU were longer or more than those of the 5-FU group, but the maximum concentration (Cmax) was lower. The distribution of GC/5-FU in vivo revealed the greatest accumulation in the hepatic cancer tissues, and the hepatic cell was the target of the nanoparticles. Toxicology research showed that the toxicity of GC-5-FU was lower than that of 5-FU in mice. In vivo experiments showed that GC/5-FU can significantly inhibit tumor growth in an orthotropic liver cancer mouse model. GC/5-FU treatment can significantly lower the tumor weight and increase the survival time of mice when compared with 5-FU treatment alone. Flow cytometry and the TUNEL assay revealed that compared with 5-FU, GC/5-FU caused higher rates of G 0-G 1 arrest and apoptosis in hepatic cancer cells.