The
development of non-viral vectors for gene delivery has gained
attention over the past decades. Specifically, poly(β-amino
ester) (PBAE) has shown great potential for improving the delivery
of gene therapeutics. It has been observed that low-molecular-weight
PBAE displayed low transfection activities, while quaternization
could enhance the transgene expression efficacy of PBAE. Herein, PBAE
quaternary ammonium salt (PBAEQAS) was synthesized to increase the
positive charge of the polymers, which resulted in an increase in
siRNA binding efficiency based on self-assembly electrostatic interaction.
Specifically, the nanoparticle surface was positively charged, which
increased the uptake ability of siRNA. Compared with acrylate-PBAEQAS/siNC
nanoparticles and amine-PBAEQAS/siNC nanoparticles, acrylate-PBAEQAS/siSurvivin
nanoparticles and amine-PBAEQAS/siSurvivin nanoparticles induced more-efficient
cell apoptosis and gene silencing. All these results suggest that
PBAEQAS would be a promising gene delivery vector for cancer treatment.