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Terbium-Rose Bengal Coordination Nanocrystals-Induced ROS Production under Low-Dose X-rays in Cultured Cancer Cells for Photodynamic Therapy

Debabrata Maiti, Hao Yu, Yuki Mochida, Seongyeon Won, Shinichi Yamashita, Mitsuru Naito, Kanjiro Miyata, Hyun Jin Kim

2023ACS Applied Bio Materials12 citationsDOI

Abstract

X-ray-triggered scintillators (Sc) and photosensitizers (Ps) have been developed for X-ray-induced photodynamic therapy (X-PDT) to selectively destruct deep tissue tumors with a low X-ray dose. This study designed terbium (Tb)-rose bengal (RB) coordination nanocrystals (T-RBNs) by a solvothermal treatment, aiming to reduce photon energy dissipation between Tb 3+ and RB and thus increase the reactive oxygen species (ROS) production efficiency. T-RBNs synthesized at a molar ratio of [RB]/[Tb] = 3 exhibited a size of 6.8 ± 1.2 nm with a crystalline property. Fourier transform infrared analyses of T-RBNs indicated successful coordination between RB and Tb 3+ . T-RBNs generated singlet oxygen ( 1 O 2 ) and hydroxyl radicals ( • OH) under low-dose X-ray irradiation (0.5 Gy) via scintillating and radiosensitizing pathways. T-RBNs produced ∼8-fold higher ROS amounts than bare RB and ∼3.6-fold higher ROS amounts than inorganic nanoparticle-based controls. T-RBNs did not exhibit severe cytotoxicity up to 2 mg/mL concentration in cultured luciferase-expressing murine epithelial breast cancer (4T1-luc) cells. Furthermore, T-RBNs were efficiently internalized into cultured 4T1-luc cells and induced DNA double strand damage, as evidenced by an immunofluorescence staining assay with phosphorylated γ-H 2 AX. Ultimately, under 0.5 Gy X-ray irradiation, T-RBNs induced >70% 4T1-luc cell death via simultaneous apoptosis/necrosis pathways. Overall, T-RBNs provided a promising Sc/Ps platform under low-dose X-PDT for advanced cancer therapy.

Topics & Concepts

Photodynamic therapyReactive oxygen speciesRose bengalApoptosisSinglet oxygenCytotoxicityChemistryMaterials scienceMolecular biologyCancer researchMedicineOxygenBiologyBiochemistryIn vitroOrganic chemistryNanoplatforms for cancer theranosticsLanthanide and Transition Metal ComplexesLuminescence Properties of Advanced Materials