Alkylated branched poly(beta-amino esters) demonstrate strong DNA encapsulation, high nanoparticle stability and robust gene transfection efficacy

Liu, S (Liu, Shuai)^[ 1 ] ; Sun, ZB (Sun, Zhibing)^[ 2 ] ; Zhou, DZ (Zhou, Dezhong)^[ 3 ] ; Guo, TY (Guo, Tianying)^[ 1 ]

JOURNAL OF MATERIALS CHEMISTRY B, 2017, 5(27): 5307-5310

DOI: 10.1039/c7tb00996h

 WOS:000405486800002

Abstract

A branched poly(beta-amino ester) with numerous alkyl chains (BPA) is designed and synthesized as a safe and efficient non-viral vector. The branching and hydrophobicity synergistically endow BPA with tight DNA condensation, high polyplex stability in serum, high cellular uptake and ultimately robust gene transfection efficiency, largely superior to its linear counterpart (LPA). Our results demonstrate that branching matters for gene delivery by hydrophobic gene vectors.