posted on 2016-10-11, 00:00authored byShun Duan, Bingran Yu, Chunxiao Gao, Wei Yuan, Jie Ma, Fu-Jian Xu
For
effective gene therapy, nonviral gene carriers with low toxicity
and high transfection efficiency are of much importance. In this work,
we developed a facile strategy to prepare hyperbranched hydroxyl-rich
polycations (denoted by TE) by the one-pot method involving ring-opening
reactions between two commonly used reagents, ethylenediamine (ED)
with two amino groups and 1,3,5-triglycidyl isocyanurate (TGIC) with
three epoxy groups. The hyperbranched TEs with different molecular
weights were investigated on their DNA condensation ability, protein
absorption property, biocompatibility, transfection efficiency, and
in vivo cancer therapy and toxicity. TE exhibited low cytotoxicity
and protein absorption property due to the plentiful hydroxyl groups.
The optimal transfection efficiency of TE was significantly higher
than that of the gold standard polycationic gene carrier branched
polyethylenimine (PEI, 25 kDa). Furthermore, TE was applied for in
vivo tumor inhibition by the delivery of antioncogene p53, which showed
good antitumor efficiency with low adverse effects. The present work
provides a new concept for the facile preparation of hyperbranched
hydroxyl-rich polycationic carriers with good transfection performances.