A Phototheranostic Strategy to Continuously Deliver Singlet Oxygen in the Dark and Hypoxic Tumor Microenvironment

Jianhua Zou; Jianwei Zhu; Zhen Yang; Ling Li; Wenpei Fan; Liangcan He; Wei Tang; Liming Deng; Jing Mu; Yuanyuan Ma; Yaya Cheng; Wei Huang; Xiaochen Dong; Xiaoyuan Chen

doi:10.1002/anie.201914384

A Phototheranostic Strategy to Continuously Deliver Singlet Oxygen in the Dark and Hypoxic Tumor Microenvironment

Jianhua Zou, Jianwei Zhu, Zhen Yang, Ling Li, Wenpei Fan, Liangcan He, Wei Tang, Liming Deng, Jing Mu, Yuanyuan Ma, Yaya Cheng, Wei Huang, Xiaochen Dong, Xiaoyuan Chen

SCHOOL OF FLEXIBLE ELECTRONICS(FUTURE TECHNOLOGIES)|INSTITUTE OF ADVANCED MATERIALS(IAM)

Research output: Contribution to journal › Article › peer-review

173 Scopus citations

Abstract

Continuous irradiation during photodynamic therapy (PDT) inevitably induces tumor hypoxia, thereby weakening the PDT effect. In PDT-induced hypoxia, providing singlet oxygen from stored chemical energy may enhance the cell-killing effect and boost the therapeutic effect. Herein, we present a phototheranostic (DPPTPE@PEG-Py NPs) prepared by using a 2-pyridone-based diblock polymer (PEG-Py) to encapsulate a semiconducting, heavy-atom-free pyrrolopyrrolidone-tetraphenylethylene (DPPTPE) with high singlet-oxygen-generation ability both in dichloromethane and water. The PEG-Py can trap the ¹O₂ generated from DPPTPE under laser irradiation and form a stable intermediate of endoperoxide, which can then release ¹O₂ in the dark, hypoxic tumor microenvironment. Furthermore, fluorescence-imaging-guided phototherapy demonstrates that this phototheranostic could completely inhibit tumor growth with the help of laser irradiation.

Original language	English
Pages (from-to)	8833-8838
Number of pages	6
Journal	Angewandte Chemie - International Edition
Volume	59
Issue number	23
DOIs	https://doi.org/10.1002/anie.201914384
State	Published - 2 Jun 2020

Keywords

fluorescence
imaging agents
nanoparticles
photothermal therapy
theranostics

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title = "A Phototheranostic Strategy to Continuously Deliver Singlet Oxygen in the Dark and Hypoxic Tumor Microenvironment",

abstract = "Continuous irradiation during photodynamic therapy (PDT) inevitably induces tumor hypoxia, thereby weakening the PDT effect. In PDT-induced hypoxia, providing singlet oxygen from stored chemical energy may enhance the cell-killing effect and boost the therapeutic effect. Herein, we present a phototheranostic (DPPTPE@PEG-Py NPs) prepared by using a 2-pyridone-based diblock polymer (PEG-Py) to encapsulate a semiconducting, heavy-atom-free pyrrolopyrrolidone-tetraphenylethylene (DPPTPE) with high singlet-oxygen-generation ability both in dichloromethane and water. The PEG-Py can trap the 1O2 generated from DPPTPE under laser irradiation and form a stable intermediate of endoperoxide, which can then release 1O2 in the dark, hypoxic tumor microenvironment. Furthermore, fluorescence-imaging-guided phototherapy demonstrates that this phototheranostic could completely inhibit tumor growth with the help of laser irradiation.",

keywords = "fluorescence, imaging agents, nanoparticles, photothermal therapy, theranostics",

author = "Jianhua Zou and Jianwei Zhu and Zhen Yang and Ling Li and Wenpei Fan and Liangcan He and Wei Tang and Liming Deng and Jing Mu and Yuanyuan Ma and Yaya Cheng and Wei Huang and Xiaochen Dong and Xiaoyuan Chen",

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year = "2020",

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doi = "10.1002/anie.201914384",

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T1 - A Phototheranostic Strategy to Continuously Deliver Singlet Oxygen in the Dark and Hypoxic Tumor Microenvironment

AU - Zou, Jianhua

AU - Zhu, Jianwei

AU - Yang, Zhen

AU - Li, Ling

AU - Fan, Wenpei

AU - He, Liangcan

AU - Tang, Wei

AU - Deng, Liming

AU - Mu, Jing

AU - Ma, Yuanyuan

AU - Cheng, Yaya

AU - Huang, Wei

AU - Dong, Xiaochen

AU - Chen, Xiaoyuan

PY - 2020/6/2

Y1 - 2020/6/2

N2 - Continuous irradiation during photodynamic therapy (PDT) inevitably induces tumor hypoxia, thereby weakening the PDT effect. In PDT-induced hypoxia, providing singlet oxygen from stored chemical energy may enhance the cell-killing effect and boost the therapeutic effect. Herein, we present a phototheranostic (DPPTPE@PEG-Py NPs) prepared by using a 2-pyridone-based diblock polymer (PEG-Py) to encapsulate a semiconducting, heavy-atom-free pyrrolopyrrolidone-tetraphenylethylene (DPPTPE) with high singlet-oxygen-generation ability both in dichloromethane and water. The PEG-Py can trap the 1O2 generated from DPPTPE under laser irradiation and form a stable intermediate of endoperoxide, which can then release 1O2 in the dark, hypoxic tumor microenvironment. Furthermore, fluorescence-imaging-guided phototherapy demonstrates that this phototheranostic could completely inhibit tumor growth with the help of laser irradiation.

AB - Continuous irradiation during photodynamic therapy (PDT) inevitably induces tumor hypoxia, thereby weakening the PDT effect. In PDT-induced hypoxia, providing singlet oxygen from stored chemical energy may enhance the cell-killing effect and boost the therapeutic effect. Herein, we present a phototheranostic (DPPTPE@PEG-Py NPs) prepared by using a 2-pyridone-based diblock polymer (PEG-Py) to encapsulate a semiconducting, heavy-atom-free pyrrolopyrrolidone-tetraphenylethylene (DPPTPE) with high singlet-oxygen-generation ability both in dichloromethane and water. The PEG-Py can trap the 1O2 generated from DPPTPE under laser irradiation and form a stable intermediate of endoperoxide, which can then release 1O2 in the dark, hypoxic tumor microenvironment. Furthermore, fluorescence-imaging-guided phototherapy demonstrates that this phototheranostic could completely inhibit tumor growth with the help of laser irradiation.

KW - fluorescence

KW - imaging agents

KW - nanoparticles

KW - photothermal therapy

KW - theranostics

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U2 - 10.1002/anie.201914384

DO - 10.1002/anie.201914384

M3 - 文章

C2 - 31943602

AN - SCOPUS:85078878700

SN - 1433-7851

VL - 59

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JO - Angewandte Chemie - International Edition

JF - Angewandte Chemie - International Edition

IS - 23

ER -

A Phototheranostic Strategy to Continuously Deliver Singlet Oxygen in the Dark and Hypoxic Tumor Microenvironment

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