Boron Nanoparticle-Enhanced Proton Therapy for Cancer Treatment

克隆形成试验 辐照 聚乙二醇 活性氧 MTT法 纳米颗粒 质子疗法 化学 放射治疗 质子 材料科学 氧化应激 纳米技术 细胞 医学 有机化学 生物化学 核物理学 内科学 物理 量子力学
作者
I. N. Zavestovskaya,А. И. Попов,D. D. Kolmanovich,Gleb V. Tikhonowski,Andrei I. Pastukhov,Maxim S. Savinov,P. V. Shakhov,Julia S. Babkova,Anton A. Popov,Ivan V. Zelepukin,Maria S. Grigoryeva,A. E. Shemyakov,S. M. Klimentov,V. A. Ryabov,Paras N. Prasad,Sergey M. Deyev,Andrei V. Kabashin
出处
期刊:Nanomaterials [MDPI AG]
卷期号:13 (15): 2167-2167 被引量:1
标识
DOI:10.3390/nano13152167
摘要

Proton therapy is one of the promising radiotherapy modalities for the treatment of deep-seated and unresectable tumors, and its efficiency can further be enhanced by using boron-containing substances. Here, we explore the use of elemental boron (B) nanoparticles (NPs) as sensitizers for proton therapy enhancement. Prepared by methods of pulsed laser ablation in water, the used B NPs had a mean size of 50 nm, while a subsequent functionalization of the NPs by polyethylene glycol improved their colloidal stability in buffers. Laser-synthesized B NPs were efficiently absorbed by MNNG/Hos human osteosarcoma cells and did not demonstrate any remarkable toxicity effects up to concentrations of 100 ppm, as followed from the results of the MTT and clonogenic assay tests. Then, we assessed the efficiency of B NPs as sensitizers of cancer cell death under irradiation by a 160.5 MeV proton beam. The irradiation of MNNG/Hos cells at a dose of 3 Gy in the presence of 80 and 100 ppm of B NPs led to a 2- and 2.7-fold decrease in the number of formed cell colonies compared to control samples irradiated in the absence of NPs. The obtained data unambiguously evidenced the effect of a strong proton therapy enhancement mediated by B NPs. We also found that the proton beam irradiation of B NPs leads to the generation of reactive oxygen species (ROS), which evidences a possible involvement of the non-nuclear mechanism of cancer cell death related to oxidative stress. Offering a series of advantages, including a passive targeting option and the possibility of additional theranostic functionalities based on the intrinsic properties of B NPs (e.g., photothermal therapy or neutron boron capture therapy), the proposed concept promises a major advancement in proton beam-based cancer treatment.
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