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Photothermal Fenton Nanocatalysts for Synergetic Cancer Therapy in the Second Near-Infrared Window.

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Chemodynamic therapy (CDT) that utilizes endogenous hydrogen peroxide (H2O2) to produce reactive oxygen species (ROS) to kill cancer cells has shown a promising strategy for malignant tumor treatment. Nevertheless, limited… Click to show full abstract

Chemodynamic therapy (CDT) that utilizes endogenous hydrogen peroxide (H2O2) to produce reactive oxygen species (ROS) to kill cancer cells has shown a promising strategy for malignant tumor treatment. Nevertheless, limited H2O2 levels in tumor microenvironment often compromise the therapeutic benefits of CDT, leading to cancer recurrence and metastasis. Herein, a second near-infrared (NIR-II) photothermal Fenton nanocatalyst (PFN) was developed for activatable magnetic resonance imaging (MRI)-guided synergetic photothermal therapy (PTT) and CDT of pancreatic carcinoma. Such a PFN is consisted of manganese dioxide (MnO2), copper sulfide (CuS), and human serum albumin (HSA), which serve as the activatable imaging contrast agent, NIR-II photothermal agent and Fenton catalyst, and stabilizer, respectively. Acidic tumor microenvironment increased the relaxivity of PFN by 2.1-fold, allowing for improved imaging performance and monitoring of nanoparticle accumulation in tumors. Under NIR-II laser irradiation at 1064 nm, PFN generates local heat, which not only permits PTT, but also enhances the nanocatalyst-mediated Fenton-like reaction. As such, PFN exerts a synergetic action to completely ablate xenografted tumor models in living animals, while the sole CDT fails to do so. This study thus provides a NIR-II photothermal nanocatalyst for potential treatment of deep-seated tumors.

Keywords: second near; near infrared; cancer; therapy; pfn; fenton

Journal Title: ACS applied materials & interfaces
Year Published: 2020

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