Ferrous-Supply-Regeneration Nanoengineering for Cancer-Cell-Specific Ferroptosis in Combination with Imaging-Guided Photodynamic Therapy

Non-apoptotic ferroptosis is of clinical importance because it offers a solution to the inevitable biocarriers of traditional apoptotic therapeutic means. Inspired by industrial electro-Fenton technology featured with electrochemical iron cycling, we construct ferrous-supply-regeneration nanoenginee...

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Bibliographic Details
Published in:ACS nano 2018-12, Vol.12 (12), p.12181-12192
Main Authors: Liu, Tao, Liu, Wenlong, Zhang, Mingkang, Yu, Wuyang, Gao, Fan, Li, Chuxin, Wang, Shi-Bo, Feng, Jun, Zhang, Xian-Zheng
Format: Article
Language:English
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Summary:Non-apoptotic ferroptosis is of clinical importance because it offers a solution to the inevitable biocarriers of traditional apoptotic therapeutic means. Inspired by industrial electro-Fenton technology featured with electrochemical iron cycling, we construct ferrous-supply-regeneration nanoengineering to intervene tumorous iron metabolism for enhanced ferroptosis. Fe3+ ion and naturally derived tannic acid (TA) spontaneously form a network-like corona onto sorafenib (SRF) nanocores. The formed SRF@FeIIITA nanoparticles can respond to a lysosomal acid environment with corona dissociation, permitting SRF release to inhibit GPX4 enzyme for ferroptosis initiation. TA is arranged to chemically reduce the liberated and the ferroptosis-generated Fe3+ to Fe2+, offering iron redox cycling to, thus, effectively produce lipid peroxide required in ferroptosis. Sustained Fe2+ supply leads to long-term cytotoxicity, which is identified to be specific to H2O2-overloaded cancer cells but minimal in normal cells. SRF@FeIIITA-mediated cell death proves to follow the ferroptosis pathway and strongly inhibits tumor proliferation. Moreover, SRF@FeIIITA provides a powerful platform capable of versatile integration between apoptosis and non-apoptosis means. Typically, photosensitizer-adsorbed SRF@FeIIITA demonstrates rapid tumor imaging owing to the acid-responsive fluorescence recovery. Together with ferroptosis, imaging-guided photodynamic therapy induces complete tumor elimination. This study offers ideas about how to advance anticancer ferroptosis through rational material design.
ISSN:1936-0851
1936-086X
DOI:10.1021/acsnano.8b05860