具有独特光系统的类囊体膜用于同时产生自供氧气和单线态氧以进行缺氧肿瘤治疗。

Thylakoid Membranes with Unique Photosystems Used to Simultaneously Produce Self-Supplying Oxygen and Singlet Oxygen for Hypoxic Tumor Therapy.

作者信息

Cheng Yan, Zheng Runxiao, Wu Xiaqing, Xu Keqiang, Song Panpan, Wang Yanjing, Yan Jiao, Chen Rui, Li Xi, Zhang Haiyuan

机构信息

Laboratory of Chemical Biology, Changchun Institute of Applied Chemistry, Chinese Academy of Sciences, Changchun, Jilin, 130022, China.

University of Science and Technology of China, Hefei, Anhui, 230026, China.

出版信息

Adv Healthc Mater. 2021 Mar;10(6):e2001666. doi: 10.1002/adhm.202001666. Epub 2021 Jan 14.

DOI:10.1002/adhm.202001666

PMID:33448152

Abstract

Photodynamic therapy (PDT) efficacy has been dramatically limited by the insufficient oxygen (O ) level in hypoxic tumors. Although various PDT nanosystems have been designed to deliver or produce O in support of reactive oxygen species (ROS) formation, the feature of asynchronous O generation and ROS formation still results in the low PDT efficacy. Herein, thylakoid membranes (TM) of chloroplasts is decorated on upconversion nanoparticles (UCNPs) to form UCTM NPs, aiming at realizing spatiotemporally synchronous O self-supply and ROS production. Upon 980 nm laser irradiation, UC NPs can emit the red light to activate both photosystem-I and photosystem-II of TM, the Z-scheme electronic structure of which facilitates water to produce O and further to singlet oxygen ( O ). UCTM NPs showed excellent biocompatibility, and can effectively remove the hypoxic tumor of mice upon 980 nm laser irradiation. This study develops a new PDT strategy for hypoxic tumor therapy based on photosynthesis.

摘要

光动力疗法（PDT）的疗效因缺氧肿瘤中氧（O₂）水平不足而受到极大限制。尽管已设计出各种PDT纳米系统来递送或产生O₂以支持活性氧（ROS）的形成，但O₂生成与ROS形成的异步特性仍导致PDT疗效较低。在此，将叶绿体类囊体膜（TM）修饰在上转换纳米颗粒（UCNPs）上以形成UCTM NPs，旨在实现时空同步的O₂自供应和ROS产生。在980 nm激光照射下，UC NPs可发射红光以激活TM的光系统I和光系统II，其Z型电子结构有助于水产生O₂并进一步生成单线态氧（¹O₂）。UCTM NPs表现出优异的生物相容性，在980 nm激光照射下可有效消除小鼠的缺氧肿瘤。本研究基于光合作用开发了一种用于缺氧肿瘤治疗的新PDT策略。

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具有独特光系统的类囊体膜用于同时产生自供氧气和单线态氧以进行缺氧肿瘤治疗。

Thylakoid Membranes with Unique Photosystems Used to Simultaneously Produce Self-Supplying Oxygen and Singlet Oxygen for Hypoxic Tumor Therapy.

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