Issue 6, 2022

Amplification of ferroptosis with a liposomal nanoreactor cooperates with low-toxicity doxorubicin apoptosis for enhanced tumor chemotherapy

Abstract

Despite the remarkable tumor inhibition effect of doxorubicin (DOX), its cardiotoxicity severely limits the clinical dosage and further impairs the chemotherapy efficacy. To improve the biosafety and effectiveness of conventional chemotherapy, we propose a strategy to co-deliver DOX and ART to supplement apoptosis with ferroptosis. To this end, ART and DOX were incorporated into ferrous LiMOFs to develop a nanoreactor, utilizing ferrous ions as a catalyst to decompose ART into radicals and thus to induce efficient ferroptosis. Further, DOX can induce another form of death, apoptosis, which in combination enhances tumor inhibition. The synthesized nanoreactor (DOX/ART@LiMOFs) possesses a size of ∼100 nm and maintains a regular crystal structure. The pH-responsive disassociation endows it with acid-sensitive drug-releasing kinetics, and the liposomal bilayers bring about a sustained release feature (up to 12 h). The cellular ROS assay indicated that the supply of ferrous ions dramatically increased the ROS mediated by ART and led to markedly enhanced tumor inhibition in animal tests accompanied by the apoptosis of DOX. Consequently, this work presents an innovative strategy to synchronously induce potent ferroptosis and apoptosis, promoting conventional cancer chemotherapy.

Graphical abstract: Amplification of ferroptosis with a liposomal nanoreactor cooperates with low-toxicity doxorubicin apoptosis for enhanced tumor chemotherapy

Supplementary files

Article information

Article type
Paper
Submitted
17 Jan 2022
Accepted
30 Jan 2022
First published
02 Feb 2022

Biomater. Sci., 2022,10, 1544-1553

Amplification of ferroptosis with a liposomal nanoreactor cooperates with low-toxicity doxorubicin apoptosis for enhanced tumor chemotherapy

P. Ji, X. Wang, J. Yin, Y. Yao and W. Du, Biomater. Sci., 2022, 10, 1544 DOI: 10.1039/D2BM00079B

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