Photo-triggered self-destructive ROS-responsive nanoparticles of high paclitaxel/chlorin e6 co-loading capacity for synergetic chemo-photodynamic therapy
Xiaoye Yang, Xiaoqun Shi, Yanan Zhang, Jiangkang Xu, Jianbo Ji, Lei Ye, Fan Yi, Guangxi Zhai
Journal:JOURNAL OF CONTROLLED RELEASE
IF:7.73
DOI:10.1016/j.jconrel.2020.04.027
PMID:32325174
Published:2020-04-20
research field:农业微生物学微生物生态学分子生态学植物病理学生物防治
Abstract
To improve the anti-cancer therapeutic effect of nanosystems for chemo-photodynamic therapy, there remain several hurdles to be addressed, e.g. , limited co-loading efficiency, insufficient stimulus-responsiveness and lack of synergetic effect. This work reported novel reactive‑oxygen-species (ROS)-responsive chlorin e6 (Ce6) and paclitaxel (PTX) co -encapsulated chondroitin sulfate- g -poly (propylene sulfide) nanoparticles (CP/ChS- g -PPS NPs), wherein the drug loading efficiencies of Ce6 and PTX were as high as 14.93% and 24.31%, respectively. To enlarge the ROS signal at tumor sites thus enhancing the ROS-responsiveness of ChS- g -PPS NPs, near-infrared (NIR) light was utilized to induce Ce6 to produce more ROS to destruct the NPs. Our data showed that the photo-triggered self-destructive property of NPs helped drugs to spread deeper in tumors upon laser irradiation, making the NPs promising to thoroughly remove tumor cells. CP/ChS- g -PPS NPs exhibited a synergetic chemo-photodynamic therapy effect in vitro , which was suggested by the combination indexes of PTX and Ce6 lower than 1 when 20–80% inhibition rates of MCF-7 cells were achieved. As for the in vivo antitumor activity , the tumor inhibition rates of CP/ChS- g -PPS NPs (with laser irradiation) were as high as 92.76% and 88.57% in 4T1 bearing BALB/c mice and MCF-7 bearing BALB/c nude mice, respectively, which were significantly higher than those of other treatment groups. This work provided a simple yet effective strategy to develop photo-triggered ROS-responsive NPs for synergetic chemo-photodynamic therapy with quick ROS-responsive self-destruction, spatiotemporally controllability, reduced off-target toxicity, and desirable therapeutic effect.
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