Bimetallic Nanozymes‐Integrated Parachute‐Like Au<sub>2</sub>Pt@PMO@ICG Janus Nanomotor with Dual Propulsion for Enhanced Tumor Penetration and Synergistic PTT/PDT/CDT Cancer Therapy

Zhang, Xiaolei; Lyu, Yangsai; Li, Jia; Yang, Xiaohan; Lan, Ziwei; Chen, Zhixu

doi:10.1002/adfm.202406059

Adv Funct Materials

2024

DOI: 10.1002/adfm.202406059

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Bimetallic Nanozymes‐Integrated Parachute‐Like Au₂Pt@PMO@ICG Janus Nanomotor with Dual Propulsion for Enhanced Tumor Penetration and Synergistic PTT/PDT/CDT Cancer Therapy

Xiaolei Zhang,

Yangsai Lyu,

Jia Li

et al.

Abstract: Nanocatalytic therapeutic agents with triple synergistic treatment modes of chemodynamic therapy (CDT), photothermal therapy (PTT) and photodynamic therapy (PDT) are emerging nanomaterials in malignancy treatment. Nevertheless, the passive diffusion and transport of nanomaterials result in poor permeability in tumor lesions, severely affecting the effectiveness of synergistic therapy. Herein, a dual‐source‐driven parachute‐like Au2Pt@PMO@ICG Janus nanomotor (APIJNS) is prepared by an interfacial energy‐mediate… Show more

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Ru‐Ph Nanozyme‐Based Hydrogels for Tumor Chemodynamic Therapy by Enhancing Enzyme Catalytic Efficiency Through Multiple Pathways

Xiao,

Zhang,

Xing

et al. 2024

Adv Healthcare Materials

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The discovery of nanozymes has opened new possibilities for tumor therapy. However, their reliance on the tumor microenvironment and limited catalytic efficiency hinder broader applications. In this study, ruthenium‐phenanthroline nanoparticles (Ru‐Phs) are synthesized by combining ruthenium with phenanthroline and subsequently coloaded with the proton pump inhibitor (PPI) pantoprazole into sodium alginate (ALG) to form a Ru‐Phs‐PPI‐ALG hydrogel for in situ tumor therapy. This hydrogel demonstrates excellent chemodynamic properties, forming a gel within tumor tissues and gradually releasing Ru‐Phs, which generates highly toxic reactive oxygen species (ROS) via peroxidase‐like (POD‐like) activity. The inclusion of PPI reduced the intracellular pH of tumor cells, accelerating the Fenton reaction and ROS accumulation. Additionally, the high photothermal conversion efficiency of Ru‐Phs‐PPI‐ALG enables heat generation under near‐infrared (NIR) irradiation, which not only disrupts tumor cell structures but also further enhances the POD‐like catalytic activity of Ru‐Phs. The hydrogel effectively killed 4T1 cells in vitro, and transcriptomic analysis confirms its potent chemodynamic efficacy. In vivo experiments demonstrate significant tumor ablation and excellent biocompatibility. This multipathway strategy to increase enzyme activity and improve chemodynamic effects provides a promising approach for advancing nanozyme applications in tumor therapy.

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Ru‐Ph Nanozyme‐Based Hydrogels for Tumor Chemodynamic Therapy by Enhancing Enzyme Catalytic Efficiency Through Multiple Pathways

Xiao,

Zhang,

Xing

et al. 2024

Adv Healthcare Materials

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Ultrasmall gold-encapsulated mesoporous platinum to promote photodynamic/catalytic therapy through cascade enzyme-like reactions

Wang,

Liu,

et al. 2025

Journal of Colloid and Interface Science

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Bimetallic Nanozymes‐Integrated Parachute‐Like Au₂Pt@PMO@ICG Janus Nanomotor with Dual Propulsion for Enhanced Tumor Penetration and Synergistic PTT/PDT/CDT Cancer Therapy

Cited by 2 publications

References 54 publications

Ru‐Ph Nanozyme‐Based Hydrogels for Tumor Chemodynamic Therapy by Enhancing Enzyme Catalytic Efficiency Through Multiple Pathways

Ru‐Ph Nanozyme‐Based Hydrogels for Tumor Chemodynamic Therapy by Enhancing Enzyme Catalytic Efficiency Through Multiple Pathways

Ultrasmall gold-encapsulated mesoporous platinum to promote photodynamic/catalytic therapy through cascade enzyme-like reactions

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Bimetallic Nanozymes‐Integrated Parachute‐Like Au2Pt@PMO@ICG Janus Nanomotor with Dual Propulsion for Enhanced Tumor Penetration and Synergistic PTT/PDT/CDT Cancer Therapy

Cited by 2 publications

References 54 publications

Ru‐Ph Nanozyme‐Based Hydrogels for Tumor Chemodynamic Therapy by Enhancing Enzyme Catalytic Efficiency Through Multiple Pathways

Ru‐Ph Nanozyme‐Based Hydrogels for Tumor Chemodynamic Therapy by Enhancing Enzyme Catalytic Efficiency Through Multiple Pathways

Ultrasmall gold-encapsulated mesoporous platinum to promote photodynamic/catalytic therapy through cascade enzyme-like reactions

Contact Info

Product

Resources

About

Bimetallic Nanozymes‐Integrated Parachute‐Like Au₂Pt@PMO@ICG Janus Nanomotor with Dual Propulsion for Enhanced Tumor Penetration and Synergistic PTT/PDT/CDT Cancer Therapy