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基于铽的AGuIX设计纳米颗粒介导X射线诱导的光动力疗法。

Terbium-Based AGuIX-Design Nanoparticle to Mediate X-ray-Induced Photodynamic Therapy.

作者信息

Daouk Joël, Iltis Mathilde, Dhaini Batoul, Béchet Denise, Arnoux Philippe, Rocchi Paul, Delconte Alain, Habermeyer Benoît, Lux François, Frochot Céline, Tillement Olivier, Barberi-Heyob Muriel, Schohn Hervé

机构信息

Department of Biology, Signals and Systems in Cancer and Neuroscience, UMR 7039 Research Center for Automatic Control (CRAN), Université de Lorraine-French National Scientific Research Center (CNRS), F-54000 Nancy, France.

Reactions and Chemical Engineering Laboratory (LRGP), UMR 7274, Université de Lorraine-French National Scientific Research Center (CNRS), F-54000 Nancy, France.

出版信息

Pharmaceuticals (Basel). 2021 Apr 22;14(5):396. doi: 10.3390/ph14050396.

DOI:10.3390/ph14050396
PMID:33922073
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8143523/
Abstract

X-ray-induced photodynamic therapy is based on the energy transfer from a nanoscintillator to a photosensitizer molecule, whose activation leads to singlet oxygen and radical species generation, triggering cancer cells to cell death. Herein, we synthesized ultra-small nanoparticle chelated with Terbium (Tb) as a nanoscintillator and 5-(4-carboxyphenyl succinimide ester)-10,15,20-triphenyl porphyrin (P1) as a photosensitizer (AGuIX@Tb-P1). The synthesis was based on the AGuIX@ platform design. AGuIX@Tb-P1 was characterised for its photo-physical and physico-chemical properties. The effect of the nanoparticles was studied using human glioblastoma U-251 MG cells and was compared to treatment with AGuIX@ nanoparticles doped with Gadolinium (Gd) and P1 (AguIX@Gd-P1). We demonstrated that the AGuIX@Tb-P1 design was consistent with X-ray photon energy transfer from Terbium to P1. Both nanoparticles had similar dark cytotoxicity and they were absorbed in a similar rate within the cells. Pre-treated cells exposure to X-rays was related to reactive species production. Using clonogenic assays, establishment of survival curves allowed discrimination of the impact of radiation treatment from X-ray-induced photodynamic effect. We showed that cell growth arrest was increased (35%-increase) when cells were treated with AGuIX@Tb-P1 compared to the nanoparticle doped with Gd.

摘要

X射线诱导的光动力疗法基于从纳米闪烁体到光敏剂分子的能量转移,光敏剂分子的激活会导致单线态氧和自由基的产生,从而引发癌细胞死亡。在此,我们合成了与铽(Tb)螯合的超小纳米颗粒作为纳米闪烁体,以及5-(4-羧基苯基琥珀酰亚胺酯)-10,15,20-三苯基卟啉(P1)作为光敏剂(AGuIX@Tb-P1)。该合成基于AGuIX@平台设计。对AGuIX@Tb-P1的光物理和物理化学性质进行了表征。使用人胶质母细胞瘤U-251 MG细胞研究了纳米颗粒的效果,并与用掺杂钆(Gd)的AGuIX@纳米颗粒和P1(AguIX@Gd-P1)治疗进行了比较。我们证明AGuIX@Tb-P1设计与从铽到P1的X射线光子能量转移一致。两种纳米颗粒具有相似的暗细胞毒性,并且它们在细胞内的吸收率相似。预处理细胞暴露于X射线与活性物质的产生有关。使用克隆形成试验,生存曲线的建立使得能够区分放射治疗的影响与X射线诱导的光动力效应。我们表明,与掺杂钆的纳米颗粒相比,用AGuIX@Tb-P1处理细胞时,细胞生长停滞增加(增加35%)。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/609b/8143523/8d4ded7bebdd/pharmaceuticals-14-00396-g007.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/609b/8143523/40291254e0b0/pharmaceuticals-14-00396-g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/609b/8143523/208de92aa600/pharmaceuticals-14-00396-g006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/609b/8143523/8d4ded7bebdd/pharmaceuticals-14-00396-g007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/609b/8143523/27aa2c45c921/pharmaceuticals-14-00396-sch001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/609b/8143523/023303cf9b83/pharmaceuticals-14-00396-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/609b/8143523/2ea46b51ff3e/pharmaceuticals-14-00396-g002.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/609b/8143523/8d4ded7bebdd/pharmaceuticals-14-00396-g007.jpg

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