Zhan Zhang scite author profile

Radiotherapy (RT) based on DNA damage and reactive oxygen species (ROS) generation has been clinically validated in various types of cancer. However, high dose-dependent induced toxicity to tissues, non-selectivity, and radioresistance greatly limit the application of RT. Herein, an oxygen-enriched X-ray nanoprocessor Hb@Hf-Ce6 nanoparticle is developed for improving the therapeutic effect of RT-radiodynamic therapy (RDT), enhancing modulation of hypoxia tumor microenvironment (TME) and promoting antitumor immune response in combination with programmed cell death protein 1 (PD-1) immune checkpoint blockade. All functional molecules are integrated into the nanoparticle based on metal-phenolic coordination, wherein one high-Z radiosensitizer (hafnium, Hf) coordinated with chlorin e6 (Ce6) modified polyphenols and a promising oxygen carrier (hemoglobin, Hb) is encapsulated for modulation of oxygen balance in the hypoxia TME. Specifically, under single X-ray irradiation, radioluminescence excited by Hf can activate photosensitizer Ce6 for ROS generation by RDT. Therefore, this combinatory strategy induces comprehensive antitumor immune response for cancer eradication and metastasis inhibition. This work presents a multifunctional metal-phenolic nanoplatform for efficient X-ray mediated RT-RDT in combination with immunotherapy and may provide a new therapeutic option for cancer treatment.

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Metal-Phenolic Network-Enabled Lactic Acid Consumption Reverses Immunosuppressive Tumor Microenvironment for Sonodynamic Therapy

Zhang¹,

Li²,

Xie³

et al. 2021

ACS Nano

117

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Nanomedicine has revolutionized cancer therapeutic strategies but has not completely changed the outcomes of tricky tumors that evolve a sophisticated immunosuppressive tumor microenvironment (TME) such as acidification. Here, a metal-phenolic network-based nanocomplex embedded with lactate oxidase (LOX) and a mitochondrial respiration inhibitor atovaquone (ATO) was constructed for immunosuppressive TME remodeling and sonodynamic therapy (SDT). In this nanocomplex, the sonosensitizer chlorin e6-conjugated polyphenol derivative can induce the generation of tumor lethal reactive oxygen species upon ultrasound irradiation. LOX served as a catalyst for intracellular lactic acid exhaustion, and ATO led to mitochondrial dysfunction to decrease oxygen consumption. This nanocomplex reversed the tumor immunosuppressive status by alleviating tumor hypoxia and acidic TME, achieving the characteristic enhancement of SDT and the inhibition of tumor proliferation and metastasis.

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Polyphenol‐Based Nanomedicine Evokes Immune Activation for Combination Cancer Treatment

et al. 2020

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Engineering multifunctional nanoplatforms with high therapeutic benefits has become ap romising strategy for intractable cancer treatment. Anovel polyphenol-based nanocomplex was designed to evoke highly efficacious cancer immunosurveillance while localizing therapyo nt he primary tumor and to minimize systemic side effects.This nanocomplex is prepared via metal-polyphenol coordination by encapsulating an atural polyphenol, gossypol, and an ewly synthesized polyphenol derivative,p olyethylene glycol-Chlorin e6 (Ce6). The combination of gossypol from cotton and the photosensitizer Ce6 can induce chemotherapeutic/photodynamic immunogenic cancer cell death upon laser irradiation, which is supported by ar ich maturation of dendritic cells,c oncentrated secretion of inflammatory cytokines,a nd significant inhibition of distant untreated tumors.Finally,anassistance of the programmed-cell-death ligand-1 checkpoint-blockade immunotherapycan enhance the anti-tumor immune stimulation of our nanoplatform to ahigher level.

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A nanounit strategy reverses immune suppression of exosomal PD-L1 and is associated with enhanced ferroptosis

et al. 2021

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In addition to increasing the expression of programmed death-ligand 1 (PD-L1), tumor cells can also secrete exosomal PD-L1 to suppress T cell activity. Emerging evidence has revealed that exosomal PD-L1 resists immune checkpoint blockade, and may contribute to resistance to therapy. In this scenario, suppressing the secretion of tumor-derived exosomes may aid therapy. Here, we develop an assembly of exosome inhibitor (GW4869) and ferroptosis inducer (Fe3+) via amphiphilic hyaluronic acid. Cooperation between the two active components in the constructed nanounit induces an anti-tumor immunoresponse to B16F10 melanoma cells and stimulates cytotoxic T lymphocytes and immunological memory. The nanounit enhances the response to PD-L1 checkpoint blockade and may represent a therapeutic strategy for enhancing the response to this therapy.

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Zhan Zhang

Recent advances in nanomaterial-based synergistic combination cancer immunotherapy

Oxygen‐Enriched Metal‐Phenolic X‐Ray Nanoprocessor for Cancer Radio‐Radiodynamic Therapy in Combination with Checkpoint Blockade Immunotherapy

Metal-Phenolic Network-Enabled Lactic Acid Consumption Reverses Immunosuppressive Tumor Microenvironment for Sonodynamic Therapy

Polyphenol‐Based Nanomedicine Evokes Immune Activation for Combination Cancer Treatment

A nanounit strategy reverses immune suppression of exosomal PD-L1 and is associated with enhanced ferroptosis

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