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A two-pronged nanostrategy of iron metabolism disruption to synergize tumor therapy by triggering the paraptosis-apoptosis hybrid pathway

ACS Nano. 2024-08; 
Huali Lei , Guanghui Hou , Lin Liu , Zifan Pei , Youdong Chen , Yujie Lu , Nalin Yang , Shumin Sun , Liang Cheng
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摘要

Iron metabolism has emerged as a promising target for cancer therapy; however, the innate metabolic compensatory capacity of cancer cells significantly limits the effectiveness of iron metabolism therapy. Herein, bioactive gallium sulfide nanodots (GaSx), with dual functions of "reprogramming" and "interfering" iron metabolic pathways, were successfully developed for tumor iron metabolism therapy. The constructed GaSx nanodots ingeniously harness hydrogen sulfide (H2S) gas, which is released in response to the tumor microenvironment, to reprogram the inherent transferrin receptor 1 (TfR1)-ferroportin 1 (FPN1) iron metabolism axis in cancer cells. Concurrently, the gallium ions (Ga3+) derived from GaSx act as a ... More

关键词

Bioactive nanomaterials; gas therapy; iron metabolism; paraptosis; synergistic cancer therapy
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