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Development of Multifunctional Mno2-Based Nanoplatforms for Hypoxia Modulation/T1-Weighted Mri/ Optical Biosensing and Targeted Drug Delivery Publisher



Sabaghi V1 ; Rashidiranjbar P1 ; Davar F2 ; Sharifpaghaleh E3, 4
Authors
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Authors Affiliations
  1. 1. School of Chemistry, College of Science, University of Tehran, Tehran, Iran
  2. 2. Department of Chemistry, Isfahan University of Technology, Isfahan, Iran
  3. 3. Department of Imaging Chemistry and Biology, Faculty of Life Sciences and Medicine, School of Biomedical Engineering and Imaging Sciences, King's College London, London, United Kingdom
  4. 4. Department of Immunology, School of Medicine, Tehran University of Medical Sciences, Tehran, Iran

Source: Journal of Drug Delivery Science and Technology Published:2024


Abstract

TME-responsive MnO2 nanorod-based platform was synthesized through the simple and eco-friendly hydrothermal approach. Then, chitosan cross-linked tripolyphosphate (Chi-TPP) was applied to coat the surface of the MnO2 nanorod to enhance the biocompatibility of bare nanostructures. The high specific surface area (51.966 m2/g) and heterogeneous nature of MnO2@Chi-TPP nanoplatforms demonstrated a significant physical loading capacity of pharmaceutical cargo (97.116 mg/g). In-vitro release profiles demonstrated that the release of DOX and the Fenton-like reaction for enhanced therapeutic effect were induced by the demolition of MnO2 nanorod to Mn2+ under acidic conditions and high glutathione (GSH), high temperature, and high concentration of H2O2. Additionally, Mn2+ ions could function as a T1-weighted MRI contrast agent. As-synthesized nanoplatforms not only serve as a TME-responsive nanocarrier but also introduces a TME-modulating agent to produce molecular O2 and simultaneously decrease tumor hypoxia. To precise detection of the tumor microenvironment, fluorescein isothiocyanate (FITC) was well labeled on the MnO2@Chi-TPP nanoplatform. The MnO2 nanorods are known as a fluorescence signal quencher regardless of the wide absorption band in the visible spectrum through the fluorescence resonance energy transfer (FRET) effect. The in-vitro analysis proved the TME-responsiveness of the MnO2@Chi-TPP@FITC nanosystem. The recovery of the fluorescence signal in the TME introduced the MnO2@Chi-TPP@FITC nanosystem as a “turn off-on” sensor. © 2023 Elsevier B.V.
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