中空磁性纳米催化剂驱动肿瘤饥饿-化学动力-热疗协同治疗

Hollow Magnetic Nanocatalysts Drive Starvation-Chemodynamic-Hyperthermia Synergistic Therapy for Tumor.

作者信息

Ying Weiwei, Zhang Yang, Gao Wei, Cai Xiaojun, Wang Gang, Wu Xiafang, Chen Lei, Meng Zheying, Zheng Yuanyi, Hu Bing, Lin Xianfang

机构信息

Department of Ultrasound in Medicine, Sixth People's Hospital Affiliated to Shanghai Jiao Tong University, Shanghai 200233, P.R. China.

Department of Ultrasound, Taizhou Hospital, Affiliated Hospital of Wenzhou Medical University, Taizhou, Zhejiang 317000, P.R. China.

出版信息

ACS Nano. 2020 Aug 25;14(8):9662-9674. doi: 10.1021/acsnano.0c00910. Epub 2020 Jul 30.

DOI:10.1021/acsnano.0c00910

PMID:32709200

Abstract

Magnetic hyperthermia therapy (MHT) has been considered as an excellent alternative for treatment of deep tumor tissue; however, up-regulation of heat shock proteins (HSPs) impairs its hyperthermal therapeutic effect. Reactive oxygen species (ROS) and competitive consumption of ATP are important targets that can block excessive HSP generation. We developed a magnetic nanocatalytic system comprised of glucose oxidase (GOD)-loaded hollow iron oxide nanocatalysts (HIONCs) to drive starvation-chemodynamic-hyperthermia synergistic therapy for tumor treatment. The Fe present in HIONCs contributed to ROS generation the Fenton reaction, relieving thermo-resistance and inducing cell apoptosis by chemodynamic action. The Fenton effect was enhanced through the conditions created by increased MHT-related temperature, GOD-mediated HO accumulation, and elevated tumor microenvironment acidity. The HIONCs catalase-like activity facilitated conversion of HO to oxygen, thereby replenishing the oxygen levels. We further demonstrated that locally injected HIONCs-GOD effectively inhibited tumor growth in PC3 tumor-bearing mice. This study presents a multifunctional nanocarrier system driving starvation-chemodynamic-magnetic-thermal synergistic therapy ROS and oxygen modulation for prostate tumor treatment.

摘要

磁热疗（MHT）被认为是治疗深部肿瘤组织的一种极佳替代方法；然而，热休克蛋白（HSPs）的上调会削弱其热疗效果。活性氧（ROS）和ATP的竞争性消耗是可以阻止过量HSP生成的重要靶点。我们开发了一种由负载葡萄糖氧化酶（GOD）的中空氧化铁纳米催化剂（HIONCs）组成的磁纳米催化系统，以驱动饥饿-化学动力学-热疗协同治疗肿瘤。HIONCs中存在的铁通过芬顿反应促进ROS生成，通过化学动力学作用减轻热抗性并诱导细胞凋亡。通过与MHT相关的温度升高、GOD介导的HO积累和肿瘤微环境酸度升高所创造的条件，芬顿效应得到增强。HIONCs的过氧化氢酶样活性促进HO转化为氧气，从而补充氧气水平。我们进一步证明，局部注射HIONCs-GOD可有效抑制荷PC3肿瘤小鼠的肿瘤生长。本研究提出了一种多功能纳米载体系统，用于驱动饥饿-化学动力学-磁热协同治疗，并对前列腺肿瘤治疗进行ROS和氧气调节。

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中空磁性纳米催化剂驱动肿瘤饥饿-化学动力-热疗协同治疗

Hollow Magnetic Nanocatalysts Drive Starvation-Chemodynamic-Hyperthermia Synergistic Therapy for Tumor.

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