Zheyu Shen scite author profile

Chemodynamic therapy (CDT) utilizes iron-initiated Fenton chemistry to destroy tumor cells by converting endogenous H O into the highly toxic hydroxyl radical ( OH). There is a paucity of Fenton-like metal-based CDT agents. Intracellular glutathione (GSH) with OH scavenging ability greatly reduces CDT efficacy. A self-reinforcing CDT nanoagent based on MnO is reported that has both Fenton-like Mn delivery and GSH depletion properties. In the presence of HCO , which is abundant in the physiological medium, Mn exerts Fenton-like activity to generate OH from H O . Upon uptake of MnO -coated mesoporous silica nanoparticles (MS@MnO NPs) by cancer cells, the MnO shell undergoes a redox reaction with GSH to form glutathione disulfide and Mn , resulting in GSH depletion-enhanced CDT. This, together with the GSH-activated MRI contrast effect and dissociation of MnO , allows MS@MnO NPs to achieve MRI-monitored chemo-chemodynamic combination therapy.

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Emerging Strategies of Cancer Therapy Based on Ferroptosis

Shen

et al. 2018

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Ferroptosis, a new form of regulated cell death that is iron- and reactive oxygen species dependent, has attracted much attention in the research communities of biochemistry, oncology, and especially material sciences. Since the first demonstration in 2012, a series of strategies have been developed to induce ferroptosis of cancer cells, including the use of nanomaterials, clinical drugs, experimental compounds, and genes. A plethora of research work has outlined the blueprint of ferroptosis as a new option for cancer therapy. However, the published ferroptosis-related reviews have mainly focused on the mechanisms and pathways of ferroptosis, which motivated this contribution to bridge the gap between biological significance and material design. Therefore, it is timely to summarize the previous efforts on the emerging strategies for inducing ferroptosis and shed light on future directions for using such a tool to fight against cancer. Here, the current strategies of cancer therapy based on ferroptosis will be elaborated, the design considerations and the advantages and limitations are highlighted, and finally a future perspective on this emerging field is given.

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Zheyu Shen

Simultaneous Fenton‐like Ion Delivery and Glutathione Depletion by MnO₂‐Based Nanoagent to Enhance Chemodynamic Therapy

Emerging Strategies of Cancer Therapy Based on Ferroptosis

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Zheyu Shen

Simultaneous Fenton‐like Ion Delivery and Glutathione Depletion by MnO2‐Based Nanoagent to Enhance Chemodynamic Therapy

Emerging Strategies of Cancer Therapy Based on Ferroptosis

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Simultaneous Fenton‐like Ion Delivery and Glutathione Depletion by MnO₂‐Based Nanoagent to Enhance Chemodynamic Therapy