H2O2/pH Dual-Responsive Biomimetic Nanoenzyme Drugs Delivery System for Enhanced Tumor Photodynamic Therapy

IF 4.703 3区 材料科学 Nanoscale Research Letters Pub Date : 2022-10-29 DOI:10.1186/s11671-022-03738-9
Xinyuan Li, Qing Ji, Chao Yan, Ziyu Zhu, Zhihui Yan, Ping Chen, Yisen Wang, Li Song
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Abstract

Phototherapy has been recognized as a photochemical process to treat tumor via induce cancer cells necrosis and death, with minimal invasiveness, higher selectivity, and few side effects. However, the therapy effects of phototherapy are often compromised by the hypoxia, high levels of hydrogen peroxide, and glutathione of tumor microenvironment (TME). Therefore, we constructed a catalase-like activity bionic metal–organic framework drugs delivery system (FA-EM@MnO2/ZIF-8/ICG) with tumor microenvironment controllable releasing. In this system, photosensitizer indocyanine green (ICG) was introduced into zeolite imidazole salt skeleton 8 (ZIF-8) by one-step methods, forming ZIF-8/ICG nano-platform, which can effectively avoid ICG-induced phototoxicity and aggregation-induced quenching during transport. MnO2 with catalase-like activity was coated on the surface of ZIF-8/ICG nano-platform, which made it have the ability of self-supplying O2 under the condition of H2O2 in TME. Exposure under near-infrared light can alleviate the anoxic TME, thus improving the phototherapy efficiency. In addition, folate-functionalized erythrocyte membrane is coated on the surface of MnO2/ZIF-8/ICG, which can endow FA-EM@MnO2/ZIF-8/ICG with the ability of targeted drug administration and immune elimination avoidance. Therefore, FA-EM@MnO2/ZIF-8/ICG nano-platform has the catalase-like activity, which can alleviate the oxidative stress state of TME and provide a beneficial environment for photodynamic therapy of tumor.

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用于增强肿瘤光动力疗法的 H2O2/pH 双响应生物仿生纳米酶给药系统
光疗被认为是一种通过诱导癌细胞坏死和死亡来治疗肿瘤的光化学过程,具有创伤小、选择性高、副作用小等特点。然而,肿瘤微环境(TME)中的缺氧、高浓度过氧化氢和谷胱甘肽往往会影响光疗的治疗效果。因此,我们构建了一种具有类似催化剂活性的仿生金属有机框架给药系统(FA-EM@MnO2/ZIF-8/ICG),该系统具有肿瘤微环境可控释放功能。在该系统中,光敏剂吲哚菁绿(ICG)被一步法引入到沸石咪唑盐骨架8(ZIF-8)中,形成ZIF-8/ICG纳米平台,可有效避免ICG诱导的光毒性和运输过程中聚集诱导的淬灭。在 ZIF-8/ICG 纳米平台表面包覆了具有类似催化剂活性的 MnO2,使其在 TME 中 H2O2 条件下具有自供 O2 的能力。在近红外线下照射可缓解缺氧的 TME,从而提高光疗效率。此外,在 MnO2/ZIF-8/ICG 表面包覆叶酸功能化红细胞膜,可赋予 FA-EM@MnO2/ZIF-8/ICG 靶向给药和避免免疫排斥的能力。因此,FA-EM@MnO2/ZIF-8/ICG 纳米平台具有类似催化剂的活性,可以缓解 TME 的氧化应激状态,为肿瘤的光动力治疗提供有利的环境。
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来源期刊
Nanoscale Research Letters
Nanoscale Research Letters NANOSCIENCE & NANOTECHNOLOGY-MATERIALS SCIENCE, MULTIDISCIPLINARY
CiteScore
15.00
自引率
0.00%
发文量
110
审稿时长
2.5 months
期刊介绍: Nanoscale Research Letters (NRL) provides an interdisciplinary forum for communication of scientific and technological advances in the creation and use of objects at the nanometer scale. NRL is the first nanotechnology journal from a major publisher to be published with Open Access.
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