Hollow double-layered polymer nanoparticles with
S-nitrosothiols for tumor targeted therapy
Liu, TW (Liu, Tuanwei)[ 1 ] ; Hu, JJ (Hu, Jingjing)[ 1 ] ; Ma, XY (Ma, Xiaoye)[ 1 ] ; Kong, B (Kong, Bing)[ 2 ] ; Wang, JL (Wang, Jilan)[ 3 ] ; Zhang, ZD(Zhang, Zhide)[ 1 ] ; Guo, DS (Guo, Dian-Shun)[ 1 ] ; Yang, XL (Yang, Xinlin)[ 4 ]
JOURNAL OF
MATERIALS CHEMISTRY B, 2017, 5(36): 7519-7528
DOI: 10.1039/c7tb01715d
WOS:000411442600007
Abstract
Tumor
targeted hollow double-layered polymer nanoparticles (HDPNs) with
S-nitrosothiols for nitric oxide (NO)-release as chemotherapy were described.
Via a two-stage distillation precipitation co-polymerization, simple
post-treatment and S-nitrosothiol modification, the S-nitroso HDPNs showed pH
and glucose dual responsiveness. This would benefit accurate binding with the
sialic acid over-expressed cancer cells, providing prerequisites for the
disulfide polymer assisted cell uptake, intracellular GSH induced decomposition
and rapid NO release. Confocal microscopy and cytotoxicity assay with normal
versus tumor cells demonstrated in vitro recognition, intracellular delivery
ability and tumor cell targeting cytotoxicity. Especially worth mentioning, the
inevitable small amount of NO leakage in the transmission would take part in
normal physiological activities and not cause serious side effects, providing a
possible solution to avoid the intolerable side effects of traditional
chemotherapy treatments for cancer.
