Marriage of black phosphorus and Cu2+ as effective photothermal agents for PET-guided combination cancer therapy.

Abstract	The use of photothermal agents (PTAs) in cancer photothermal therapy (PTT) has shown promising results in clinical studies. The rapid degradation of PTAs may address safety concerns but usually limits the photothermal stability required for efficacious treatment. Conversely, PTAs with high photothermal stability usually degrade slowly. The solutions that address the balance between the high photothermal stability and rapid degradation of PTAs are rare. Here, we report that the inherent Cu2+-capturing ability of black phosphorus (BP) can accelerate the degradation of BP, while also enhancing photothermal stability. The incorporation of Cu2+ into BP@Cu nanostructures further enables chemodynamic therapy (CDT)-enhanced PTT. Moreover, by employing 64Cu2+, positron emission tomography (PET) imaging can be achieved for in vivo real-time and quantitative tracking. Therefore, our study not only introduces an "ideal" PTA that bypasses the limitations of PTAs, but also provides the proof-of-concept application of BP-based materials in PET-guided, CDT-enhanced combination cancer therapy.
Authors	Kuan Hu, Lin Xie, Yiding Zhang, Masayuki Hanyu, Zhimin Yang, Kotaro Nagatsu, Hisashi Suzuki, Jiang Ouyang, Xiaoyuan Ji, Junjie Wei, Hao Xu, Omid C Farokhzad, Steven H Liang, Lu Wang, Wei Tao, Ming-Rong Zhang
Journal	Nature communications (Nat Commun) Vol. 11 Issue 1 Pg. 2778 (06 08 2020) ISSN: 2041-1723 [Electronic] England
PMID	32513979 (Publication Type: Journal Article, Research Support, Non-U.S. Gov't)
Chemical References	Ions Oligopeptides Phosphorus Polyethylene Glycols Copper arginyl-glycyl-aspartic acid
Topics	Animals Cell Death Cell Line, Tumor Combined Modality Therapy Copper (chemistry, pharmacokinetics) Humans Hyperthermia, Induced Ions Mice Nanostructures (chemistry, ultrastructure) Neoplasms (therapy) Oligopeptides (chemistry) Phosphorus (chemistry, pharmacokinetics) Phototherapy Polyethylene Glycols (chemistry) Positron-Emission Tomography Spectrophotometry, Ultraviolet Theranostic Nanomedicine

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