用于超声和近红外光促进肿瘤消融的超小合金纳米酶

Ultrasmall Alloy Nanozyme for Ultrasound- and Near-Infrared Light-Promoted Tumor Ablation.

作者信息

Jana Deblin, Wang Dongdong, Bindra Anivind Kaur, Guo Yi, Liu Jiawei, Zhao Yanli

机构信息

Division of Chemistry and Biological Chemistry, School of Physical and Mathematical Sciences, Nanyang Technological University, 21 Nanyang Link, Singapore 637371, Singapore.

School of Chemical and Biomedical Engineering, Nanyang Technological University, 62 Nanyang Drive, Singapore 637459, Singapore.

出版信息

ACS Nano. 2021 Apr 27;15(4):7774-7782. doi: 10.1021/acsnano.1c01830. Epub 2021 Apr 12.

DOI:10.1021/acsnano.1c01830

PMID:33844517

Abstract

The therapeutic effect of chemodynamic therapy (CDT) is significantly restricted by the stern reaction conditions and slow reaction rate of the Fenton reaction (pH 3-4). Herein, we report an ultrasmall trimetallic (Pd, Cu, and Fe) alloy nanozyme (PCF-a NEs) possessing dynamic active-site synergism, thus exhibiting a cascade glutathione peroxidase and peroxidase (POD) mimicking activities in circumneutral pH. PCF-a NEs exhibit photothermally augmented POD property and high photothermal conversion efficiency (62%) for synergistic tumor cell apoptosis. In addition, ultrasound can also enhance the mass transfer at active catalytic sites of PCF-a NEs, in turn accelerating Fenton-like reaction for tumor-specific CDT. This work provides a strategy for engineering alloy nanozymes in a bioinspired way for the amplification of intratumor reactive oxygen species in response to external stimuli, demonstrating enhanced efficiency for the inhibition of tumor growth and .

摘要

化学动力疗法（CDT）的治疗效果受到Fenton反应（pH 3-4）苛刻的反应条件和缓慢的反应速率的显著限制。在此，我们报道了一种具有动态活性位点协同作用的超小三元（钯、铜和铁）合金纳米酶（PCF-a NEs），因此在近中性pH条件下表现出级联谷胱甘肽过氧化物酶和过氧化物酶（POD）模拟活性。PCF-a NEs表现出光热增强的POD特性和用于协同肿瘤细胞凋亡的高光热转换效率（62%）。此外，超声还可以增强PCF-a NEs活性催化位点处的传质，进而加速用于肿瘤特异性CDT的类Fenton反应。这项工作提供了一种以生物启发方式设计合金纳米酶的策略，用于响应外部刺激放大肿瘤内活性氧，证明了增强抑制肿瘤生长的效率。

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用于超声和近红外光促进肿瘤消融的超小合金纳米酶

Ultrasmall Alloy Nanozyme for Ultrasound- and Near-Infrared Light-Promoted Tumor Ablation.

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