화학공학소재연구정보센터
Biomacromolecules, Vol.21, No.10, 4008-4016, 2020
Polyamidoamine Dendrimer Grafted with an Acid-Responsive Charge-Reversal Layer for Improved Gene Delivery
We report on a heterogeneous dendrimer (G3-acetal-NH2) derivative possessing an acid-responsive chargereversal layer. The synthesis of G3-acetal-NH2 starts with a polyamidoamine (PAMAM) dendrimer G3 core and follows the aza-Michael addition with N- (2.- (1- (allyloxy)ethoxy)ethyl)-acrylamide synthesized by us and the thiol-ene dick chemistry with cysteamine hydrochloride in sequence. In a weakly acidic environment, the surface of this newly formed dendrimer can turn from amine-terminated to hydroxyl-terminated due to the deavage of the acetal groups. This charge conversion from 34.3 +/- 2.7 to 18.0 +/- 0.3 mV in 24 h at pH 5.3 enables its capacity as a gene delivery vehicle. G3-acetal-NH2, with a positively charged surface can condense pMAX GFP plasmid at similar weight ratios as native G4-NH2 (above 2:1), allowing for its protected uptake into cells and endosomal escape. Meanwhile, in the endosome, the drop in vesicle pH cleaves the acetal bond, releasing the genetic payload and limiting its recondensation by the reduction in the dendrimer surface charge. When the vector/plasmid weight ratio was 2:1, G3-acetal-NH2 improved transfection of pMAX GFP plasmid by 5-fold over native G4-NH2 in NIH3T3 cells in terms of GFP protein expression. Taken together, we show that this surface charge conversion performance makes the synthesized heterogeneous dendrimer an improved vehicle for gene transfection.