Abstract

Polypropylenimine (PPI) dendrimers have been widely used as effective delivery vehicles for drugs and nucleic acids during the past decade. However, biomedical applications of PPI dendrimers were limited because of their serious cytotoxicity and low drug loading capacity. In the present study, acetylated PPI dendrimers with different degrees of acetylation ranging from 14.2% to 94.3% were synthesized and used to encapsulate drugs, including methotrexate sodium, sodium deoxycholate and doxorubicin. Acetylated PPI dendrimers with a degree of acetylation >80% showed a significantly decreased cytotoxicity (>90% cell viability) on MCF-7 and A549 cells. The drug loading capacity of acetylated PPI dendrimers increased proportionally with the degree of acetylation on the dendrimer surface. In addition, 94.3% acetylated PPI dendrimers exhibited a pH-responsive release profile of anticancer drugs loaded within the nanoparticles. The cytotoxicities of methotrexate sodium and doxorubicin on MCF-7 and A549 cells were significantly reduced when they were complexed with acetylated PPI dendrimers with high degrees of acetylation (>80%), owing to sustained drug release from the dendrimers. The results suggest that surface acetylation can reduce the cytotoxicity and improve the anticancer drug loading capacity of cationic dendrimers, and that acetylated PPI dendrimers are promising vehicles for anticancer drugs in clinical trials.

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