Oxygen Self-Generating Nanoreactor Mediated Ferroptosis Activation and Immunotherapy in Triple-Negative Breast Cancer.
Ke LiKun XuYe HeYulu YangMeijun TanYulan MaoYanan ZouQian FengZhong LuoKaiyong CaiPublished in: ACS nano (2023)
The hypoxia microenvironment of solid tumors poses a technological bottleneck for ferroptosis and immunotherapy in clinical oncology. Nanoreactors based on special physiological signals in tumor cells are able to avoid various tumor tolerance mechanisms by alleviating the intracellular hypoxia environment. Herein we reported a nanoreactor Cu 2- x Se that enabled the conversion of Cu elements between Cu + and Cu 2+ for the generation of O 2 and the consumption of intracellular GSH content. Furthermore, to enhance the catalytic and ferroptosis-inducing activities of the nanoreactors, the ferroptosis agonist Erastin was loaded on the ZIF-8 coating on the surface of Cu 2- x Se to up-regulate the expression of NOX4 protein, increase the intracellular H 2 O 2 content, catalyze the Cu + to produce O 2 and activate ferroptosis. In addition, the nanoreactors were simultaneously surface functionalized with PEG polymer and folic acid molecules, which ensured the in vivo blood circulation and tumor-specific uptake. In vitro and in vivo experiments demonstrated that the functionalized self-supplying nanoreactors can amplify the ability to generate O 2 and consume intracellular GSH via the interconversion of Cu elements Cu + and Cu 2+ , and impair the GPX4/GSH pathway and HIF-1α protein expression. At the same time, by alleviating the intracellular hypoxia environment, the expression of miR301, a gene in the secreted exosomes was decreased, which ultimately affected the phenotype polarization of TAMs and increased the content of IFN γ secreted by CD8 + T cells, which further promoted the ferroptosis induced by Erastin-loaded nanoreactors. This combined therapeutic strategy of activating the tumor immune response and ferroptosis via self-supplying nanoreactors provides a potential strategy for clinical application.
Keyphrases
- cell death
- aqueous solution
- immune response
- metal organic framework
- reactive oxygen species
- poor prognosis
- drug delivery
- stem cells
- endothelial cells
- risk assessment
- long non coding rna
- palliative care
- gene expression
- signaling pathway
- mesenchymal stem cells
- binding protein
- quantum dots
- toll like receptor
- climate change
- cancer therapy
- bone marrow
- transcription factor
- wound healing
- dna methylation