Enzyme Core Spherical Nucleic Acid That Enables Enhanced Cuproptosis and Antitumor Immune Response through Alleviating Tumor Hypoxia

Huang, Yuting; Liu, Xueliang; Zhu, Jiawei; Chen, Zhejie; Yu, Lu; Huang, Xin; Dong, Chuhuang; Li, Jiabei; Zhou, Huayuan; Yang, Yu; Tan, Weihong

doi:10.1021/jacs.3c14247

J. Am. Chem. Soc.

2024

DOI: 10.1021/jacs.3c14247

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Enzyme Core Spherical Nucleic Acid That Enables Enhanced Cuproptosis and Antitumor Immune Response through Alleviating Tumor Hypoxia

Yuting Huang,

Xueliang Liu,

Jiawei Zhu

et al.

Abstract: Cuproptosis, a copper-dependent cell death process, has been confirmed to further activate the immune response and mediate the immune resistance. However, hypoxic tumor microenvironment hampers cuproptosis sensitivity and suppresses the body's antitumor immune response. Herein, we have successfully immobilized and functionalized catalase (CAT) with long singlestranded DNA containing polyvalent CpG sequences through rolling circle amplification (RCA) techniques, obtaining an enzyme-cored spherical nucleic acid … Show more

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Cited by 19 publications

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Docetaxel‐Encapsulated Catalytic Pt/Au Nanotubes for Synergistic Chemo‐Photothermal Therapy of Triple‐Negative Breast Cancer

Yang,

Zhang,

Dai

et al. 2024

Adv Healthcare Materials

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The combination of photothermal therapy with chemotherapy has emerged as a promising therapeutic modality for addressing triple‐negative breast cancer (TNBC). This manuscript describes a novel hybrid nanoplatform comprising ultrathin catalytic platinum/gold (Pt/Au) nanotubes encapsulated with docetaxel and phase‐change materials (PCMs) for the photoacoustic imaging‐guided synergistic chemo‐photothermal therapy of TNBC. Upon irradiation of near‐infrared laser, the photothermal heating of nanotubes converts solid‐state PCM into liquid, triggering the controlled release of the encapsulated docetaxel. The thin Pt layer within nanotubes enhances the nanotube's thermal stability, thus prolonging the photothermal ablation of tumors. Furthermore, platinum effectively mitigates tumor hypoxia by catalyzing the decomposition of hydrogen peroxides to generate oxygen in the tumor microenvironment, thus improving the efficiency of chemotherapy. It is demonstrated that the drug‐loaded nanotubes achieve significant tumor inhibition rates of 75.4% in vivo on 4T1 tumor‐bearing mice, significantly surpassing control groups. These nanotubes also notably extend survival, attributable to the synergistic effects of prolonged photothermal therapy facilitated by platinum and oxygenation‐enhanced chemotherapy. This combination leverages the unique properties of the Pt/Au NTs‐DTX/PCM nanoplatform, optimizing therapeutic outcomes. It is envisioned that this nanoplatform may find important applications in managing superficial malignant solid tumors in general.

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Docetaxel‐Encapsulated Catalytic Pt/Au Nanotubes for Synergistic Chemo‐Photothermal Therapy of Triple‐Negative Breast Cancer

Yang,

Zhang,

Dai

et al. 2024

Adv Healthcare Materials

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Biomimic Nanodrugs Overcome Tumor Immunosuppressive Microenvironment to Enhance Cuproptosis/Chemodynamic‐Induced Cancer Immunotherapy

Wu,

Lu,

et al. 2024

Advanced Science

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Elesclomol (ES) as an efficient Cu ionophore can specifically transport Cu into mitochondria and disrupt intracellular Cu homeostasis. Extra intracellular Cu induces cuproptosis and chemodynamic therapy (CDT), which further cascades immunogenic cell death (ICD) and activates antitumor immune responses. However, the tumor immunosuppressive microenvironment (TIM) attenuates the efficiency of the immune response. Herein, a biomimic nanodrug (ECNM) is fabricated, of which ES, Cu2+ and NLG919 (an IDO1 inhibitor) are integrated via a self‐assembly process and subsequently coated with 4T1 cell membrane. ECNM can overcome the typical drawbacks of ES, ameliorating the stability and half‐life of ES by membrane‐coating and enhancing its tumor accumulation and internalization via homotypic targeting. It is worth mentioning that, the addition of NLG919 is also beneficial to the system circulation stability of ES and reduces the non‐specific ES release. After internalization, ECNM dissociates via the glutathione‐responsive process and exhibits comprehensive antitumor capabilities, including cuproptosis, CDT and TIM reversing, thereby eliciting ICD and optimizing the antitumor immune response. Furthermore, ECNM not only accelerates tumor regression but also gains a strong abscopal effect and displays the potential of tumor vaccination. Overall, ECNM can activate antitumor immunity via cuproptosis and CDT, together with TIM reversing, for cancer treatment.

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Near‐Infrared Activatable Copper Nanoplatforms Synergize with the 5‐Azacytidine Prodrug to Potentiate Cuproptosis

Wang,

Liu,

et al. 2024

Angewandte Chemie

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Cuproptosis, a newly discovered cell death modality, is gaining recognition for its crucial role in antitumor therapy. Here, we demonstrated that Ferredoxin 1 (FDX1), a key gene involved in cuproptosis, is negatively correlated with malignancy and T‐cell exhaustion in head and neck squamous cell carcinoma (HNSCC). Based on these findings, we developed near‐infrared (NIR) light‐controlled nanoparticles (NPs), CuD@PM, which can selectively deliver copper to HNSCC cells and induce cuproptosis in the presence of microneedles loaded with triacetylated azacitidine (TAc‐AzaC) and 808 nm laser irradiation. Intravenous administration of these NPs significantly suppressed tumor growth in HNSCC animal models and enhanced the antitumor immune response. The NIR‐controlled activation of cuproptosis offers great potential as a safe, targeted, and image‐guided antitumor therapy for HNSCC.

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Enzyme Core Spherical Nucleic Acid That Enables Enhanced Cuproptosis and Antitumor Immune Response through Alleviating Tumor Hypoxia

Cited by 19 publications

References 50 publications

Docetaxel‐Encapsulated Catalytic Pt/Au Nanotubes for Synergistic Chemo‐Photothermal Therapy of Triple‐Negative Breast Cancer

Docetaxel‐Encapsulated Catalytic Pt/Au Nanotubes for Synergistic Chemo‐Photothermal Therapy of Triple‐Negative Breast Cancer

Biomimic Nanodrugs Overcome Tumor Immunosuppressive Microenvironment to Enhance Cuproptosis/Chemodynamic‐Induced Cancer Immunotherapy

Near‐Infrared Activatable Copper Nanoplatforms Synergize with the 5‐Azacytidine Prodrug to Potentiate Cuproptosis

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