基于中空 MoS 的一体化治疗性纳米平台用于光热操控的富氧自增强光动力治疗。

All-in-One Theranostic Nanoplatform Based on Hollow MoS for Photothermally-maneuvered Oxygen Self-enriched Photodynamic Therapy.

机构信息

Tianjin Key Laboratory of Drug Delivery & High-Efficiency, School of Pharmaceutical Science and Technology, Tianjin University, 300072, Tianjin, PR China.

出版信息

Theranostics. 2018 Jan 1;8(4):955-971. doi: 10.7150/thno.22325. eCollection 2018.

DOI:10.7150/thno.22325

PMID:29463993

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5817104/

Abstract

UNLABELLED

Photodynamic therapy (PDT) kills cancer cells by converting tumor-dissolved oxygen into reactive singlet oxygen (O) using a photosensitizer under laser irradiation. However, pre-existing hypoxia in tumors and oxygen consumption during PDT can result in an inadequate oxygen supply, which in turn hampers PDT efficacy. Herein, an O self-sufficient nanotheranostic platform based on hollow MoS nanoparticles (HMoS) with oxygen-saturated perfluorohexane (O@PFH) and surface-modified human serum albumin (HSA)/chloride aluminium phthalocyanine (AlPc) (O@PFH@HMoS-HSA/AlPc), has been designed for the imaging and oxygen self-enriched photodynamic therapy (Oxy-PDT) of cancer.

METHODS

The anti-cancer activity and intracellular O generation performance of the nanoparticles were examined using 4T1 cells. We also evaluated the multimodal imaging capabilities and anti-tumor efficiency of the prepared nanoparticles in vivo using a 4T1 tumor-bearing nude mouse model.

RESULTS

This nanoplatform could achieve the distinct fluorescence (FL)/photoacoustic (PA)/X-ray computed tomography (CT) triple-model imaging-guided photothermally-maneuvered Oxy-PDT. Interestingly, the fluorescence and Oxy-PDT properties of O@PFH@HMoS-HSA/AlPc were considerably quenched; however, photothermal activation by 670 nm laser irradiation induced a significant increase in temperature, which empowered the Oxy-PDT effect of the nanoparticles. In this study, O@PFH@HMoS-HSA/AlPc demonstrated a great potential to image and treat tumors both and , showing complete tumor-inhibition over 16 days after treatment in the 4T1 tumor model.

CONCLUSION

O@PFH@HMoS-HSA/AlPc is promising to be used as novel multifunctional theranostic nanoagent for triple-modal imaging as well as single wavelength NIR laser triggered PTT/Oxy-PDT synergistic therapy.

摘要

未加标签

光动力疗法（PDT）通过在激光照射下使用光敏剂将肿瘤溶解的氧转化为活性单线态氧（O）来杀死癌细胞。然而，肿瘤中预先存在的缺氧和 PDT 期间的氧气消耗会导致氧气供应不足，从而反过来阻碍 PDT 的疗效。在此，设计了一种基于具有过饱和全氟己烷（O@PFH）和表面修饰的人血清白蛋白（HSA）/氯化铝酞菁（AlPc）的中空 MoS 纳米粒子（HMoS）的 O 自给式纳米治疗平台（O@PFH@HMoS-HSA/AlPc），用于癌症的成像和氧自富光动力治疗（Oxy-PDT）。

方法

使用 4T1 细胞检查了纳米粒子的抗癌活性和细胞内 O 生成性能。我们还使用 4T1 荷瘤裸鼠模型评估了制备的纳米粒子的多模态成像能力和抗肿瘤效率。

结果

该纳米平台可以实现明显的荧光（FL）/光声（PA）/X 射线计算机断层扫描（CT）三模式成像引导的光热操纵的 Oxy-PDT。有趣的是，O@PFH@HMoS-HSA/AlPc 的荧光和 Oxy-PDT 性质明显猝灭；然而，670nm 激光照射的光热激活导致温度显著升高，从而增强了纳米粒子的 Oxy-PDT 效应。在这项研究中，O@PFH@HMoS-HSA/AlPc 显示出对肿瘤进行成像和治疗的巨大潜力，在 4T1 肿瘤模型中，治疗后 16 天内完全抑制了肿瘤。

结论

O@PFH@HMoS-HSA/AlPc 有望成为新型多功能治疗纳米剂，用于三重模式成像以及单波长近红外激光触发的 PTT/Oxy-PDT 协同治疗。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a86d/5817104/4b4430aae2c9/thnov08p0955g001.jpg

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基于中空 MoS 的一体化治疗性纳米平台用于光热操控的富氧自增强光动力治疗。

All-in-One Theranostic Nanoplatform Based on Hollow MoS for Photothermally-maneuvered Oxygen Self-enriched Photodynamic Therapy.

机构信息

出版信息

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METHODS

RESULTS

CONCLUSION

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