Wen-Xiu Ren scite author profile

Imaging-guided phototherapy, including photothermal therapy and photodynamic therapy, has been emerging as a promising avenue for precision cancer treatment. However, the utilization of a single laser to induce combination phototherapy and multiple-model imaging remains a great challenge. Herein, we report, the first of its kind, a covalent−organic framework (COF)based magnetic core−shell nanocomposite, Fe 3 O 4 @COF-DhaTph, that is used as a multifunctional nanoagent for cancer theranostics under single 660 nm NIR irradiation. Besides significant photothermal and photodynamic effects, it still permits triple-modal magnetic resonance/photoacoustic/near-infrared thermal (IR) imaging due to its unequaled magnetic and optical performance. We believe that the results obtained herein could obviously promote the application of COF-based multifunctional nanomaterials in cancer theranostics.

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Polydopamine-Based Multifunctional Antitumor Nanoagent for Phototherapy and Photodiagnosis by Regulating Redox Balance

Feng

Gao

Zhang

et al. 2020

ACS Appl. Bio Mater.

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The development of multifunctional nanoagents for the simultaneous achievement of high diagnostic and therapeutic performances is significant for precise cancer treatment. Herein, we report on a polydopamine (PDA)-based multifunctional nanoagent, PML, in which the methylene blue (MB) photosensitizer (PS) and l-arginine (l-Arg) tumor-targeting species are equipped. After selectively accumulating in tumor sites, glutathione (GSH)-responsive PML degradation can controllably release loaded MB to produce singlet oxygen (1O2) under near-infrared (NIR) photoirradiation. This GSH-depleted PS release process can not only weaken the body’s antioxidant defence ability but also synergistically increase the 1O2 concentration. Therefore, GSH depletion-enhanced photodynamic therapy (PDT) efficiency is logically achieved by regulating the intracellular redox balance. In addition, our nanoagent can guide photoacoustic/NIR thermal dual-modal imaging and convert light into heat for cooperative cancer phototherapy because of the inherent photothermal conversion nature of PDA. As a result, excellent in vivo antitumor phototherapy (PDT + PTT) is achieved under the precise guidance of dual-modal imaging. This work not only realizes the integration of cancer diagnosis and treatment through PDA-based nanocarriers but also delivers dimensions in designing the next generation of multifunctional antitumor nanoagents for enhanced phototherapy and photodiagnosis by regulating the redox balance.

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Wen-Xiu Ren

Recent insight into functional crystalline porous frameworks for cancer photodynamic therapy

A covalent organic framework-based nanoagent for H₂S-activable phototherapy against colon cancer

Nanoscale covalent organic framework for the low-temperature treatment of tumor growth and lung metastasis

Core–Shell-Structured Covalent–Organic Framework as a Nanoagent for Single-Laser-Induced Phototherapy

Polydopamine-Based Multifunctional Antitumor Nanoagent for Phototherapy and Photodiagnosis by Regulating Redox Balance

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Wen-Xiu Ren

Recent insight into functional crystalline porous frameworks for cancer photodynamic therapy

A covalent organic framework-based nanoagent for H2S-activable phototherapy against colon cancer

Nanoscale covalent organic framework for the low-temperature treatment of tumor growth and lung metastasis

Core–Shell-Structured Covalent–Organic Framework as a Nanoagent for Single-Laser-Induced Phototherapy

Polydopamine-Based Multifunctional Antitumor Nanoagent for Phototherapy and Photodiagnosis by Regulating Redox Balance

Contact Info

Product

Resources

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A covalent organic framework-based nanoagent for H₂S-activable phototherapy against colon cancer