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Photodynamic N-Tio2 Nanoparticle Treatment Induces Controlled Ros-Mediated Autophagy and Terminal Differentiation of Leukemia Cells Publisher Pubmed



Moosavi MA1 ; Sharifi M1, 2 ; Ghafary SM3, 4 ; Mohammadalipour Z1 ; Khataee A5, 6 ; Rahmati M7 ; Hajjaran S1 ; Los MJ8, 9 ; Klonisch T10 ; Ghavami S10, 11, 12
Authors
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Authors Affiliations
  1. 1. Department of Molecular Medicine, Institute of Medical Biotechnology, National Institute for Genetic Engineering and Biotechnology, Tehran, Iran
  2. 2. Cell and Molecular Biology Department, Pharmaceutical Sciences Branch, Islamic Azad University, Tehran, Iran
  3. 3. Hematology and Oncology Research Center, Tabriz University of Medical Science, Tabriz, Iran
  4. 4. Department of Nanobiotechnology, Faculty of Biological Sciences, University of Tarbiat Modares, Tehran, Iran
  5. 5. Research Laboratory of Advanced Water and Wastewater Treatment Processes, Department of Applied Chemistry, University of Tabriz, Tabriz, Iran
  6. 6. Department of Materials Science and Nanotechnology, Near East University, Mersin 10, Nicosia, 99138, Cyprus
  7. 7. Rheumatology Research Center, Tehran University of Medical Sciences, Tehran, Iran
  8. 8. LinkoCare Life Sciences AB, Linkoping, 583 30, Sweden
  9. 9. Malopolska Centre of Biotechnology, Jagiellonian University, Gronostajowa 7A str, Krakow, 30-387, Poland
  10. 10. Department of Human Anatomy and Cell Science, College of Medicine, University of Manitoba, Winnipeg, MB, Canada
  11. 11. Children Hospital Research Institute of Manitoba, University of Manitoba, Winnipeg, Canada
  12. 12. Health Research Policy Centre, Shiraz University of Medical Science, Shiraz, Iran

Source: Scientific Reports Published:2016


Abstract

In this study, we used nitrogen-doped titanium dioxide (N-TiO2) NPs in conjugation with visible light, and show that both reactive oxygen species (ROS) and autophagy are induced by this novel NP-based photodynamic therapy (PDT) system. While well-dispersed N-TiO2 NPs (≤100 μg/ml) were inert, their photo-activation with visible light led to ROS-mediated autophagy in leukemia K562 cells and normal peripheral lymphocytes, and this increased in parallel with increasing NP concentrations and light doses. At a constant light energy (12 J/cm2), increasing N-TiO2 NP concentrations increased ROS levels to trigger autophagy-dependent megakaryocytic terminal differentiation in K562 cells. By contrast, an ROS challenge induced by high N-TiO2 NP concentrations led to autophagy-associated apoptotic cell death. Using chemical autophagy inhibitors (3-methyladenine and Bafilomycin A1), we confirmed that autophagy is required for both terminal differentiation and apoptosis induced by photo-activated N-TiO2. Pre-incubation of leukemic cells with ROS scavengers muted the effect of N-TiO2 NP-based PDT on cell fate, highlighting the upstream role of ROS in our system. In summary, PDT using N-TiO2 NPs provides an effective method of priming autophagy by ROS induction. The capability of photo-activated N-TiO2 NPs in obtaining desirable cellular outcomes represents a novel therapeutic strategy of cancer cells.
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