Biodegradable Highly Branched Poly(beta-Amino Ester)s for
Targeted Cancer Cell Gene Transfection
Liu, S (Liu, Shuai)[ 1,2 ] ; Gao, YS (Gao, Yongsheng)[ 1 ] ; Sigen, A (Sigen, A.)[ 1 ] ; Zhou, DZ (Zhou, Dezhong)[ 1 ] ; Greiser, U (Greiser, Udo)[ 1 ] ; Guo, TY (Guo, Tianying)[ 2 ] ; Guo, R (Guo, Rui)[ 3 ] ; Wang, WX (Wang, Wenxin)[ 1 ]
ACS
BIOMATERIALS SCIENCE & ENGINEERING, 2017, 3(7): 1283-1286
DOI: 10.1021/acsbiomaterials.6b00503
WOS:000405447700010
Abstract
To enhance
the gene transfection efficiency to targeted cells while reducing the side
effects to untargeted cells is of great significance for clinical gene therapy.
Here, biodegradable highly branched poly(beta-amino ester)s (HPAESS) are
synthesized and functionalized with folate (HPAESSFA) and lactobionic acid
(HPAESS-Lac) for targeted cancer cell gene transfection. Results show that
because of the triggered degradability of the vector and enhanced receptor
mediated cellular uptake of polyplexes, the HPAESS-FA and HPAESS-Lac exhibit
superior gene transfection capability in specific cancer cells with negligible
cytotoxicity, pointing to their promise as targeted vectors for efficient
cancer gene therapy.
