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Porous Molybdenum Nitride Nanosphere as Carrier-Free and Efficient Nitric Oxide Donor for Synergistic Nitric Oxide and Chemo/Sonodynamic Therapy

Qingchen Bai, Miao Wang, Jingwei Liu, Xilin Sun, Piaoping Yang, Fengyu Qu, Huiming Lin

2023ACS Nano43 citationsDOI

Abstract

Given its abundant physiological functions, nitric oxide (NO) has attracted much attention as a cancer therapy. The sensitive release and great supply capacity are significant indicators of NO donors and their performance. Here, a transition metal nitride (TMN) MoN@PEG is adopted as an efficient NO donor. The release process starts with H + -triggered denitrogen owing to the high electronegativity of the N atom and weak Mo–N bond. Then, these active NH x are oxidized by O 2 and other reactive oxygen species (ROS) to form NO, endowing specific release to the tumor microenvironment (TME). With a porous nanosphere structure (80 nm), MoN@PEG does not require an extra carrier for NO delivery, contributing to ultrahigh atomic utilization for outstanding release ability (94.1 ± 5.6 μM). In addition, it can also serve as a peroxidase and sonosensitizer for anticancer treatment. To further improve the charge separation, MoN-Pt@PEG was prepared to enhance the sonodynamic therapy (SDT) effect. Accordingly, ultrasound (US) further promotes NO generation due to more ROS generation, facilitating in situ peroxynitrite (·ONOO – ) generation with great cytotoxicity. At the same time, the nanostructure also degrades gradually, leading to high elimination (94.6%) via feces and urine within 14-day. The synergistic NO and chemo-/sono-dynamic therapy brings prominent antitumor efficiency and further activates the immune response to inhibit metastasis and recurrence. This work develops a family of NO donors that would further widen the application of NO therapy in other fields.

Topics & Concepts

Sonodynamic therapyNitric oxideReactive nitrogen speciesPeroxynitriteNanotechnologyMaterials scienceReactive oxygen speciesChemistryBiophysicsBiochemistrySuperoxideOrganic chemistryBiologyEnzymeNanoplatforms for cancer theranosticsLuminescence and Fluorescent MaterialsMXene and MAX Phase Materials