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通过选择性光灭活呼吸链氧化酶进行癌症光疗,以触发致命的超氧阴离子爆发。

Cancer phototherapy via selective photoinactivation of respiratory chain oxidase to trigger a fatal superoxide anion burst.

机构信息

1 MOE Key Laboratory of Laser Life Science and Institute of Laser Life Science, College of Biophotonics, South China Normal University , Guangzhou, China .

出版信息

Antioxid Redox Signal. 2014 Feb 10;20(5):733-46. doi: 10.1089/ars.2013.5229. Epub 2013 Oct 5.

DOI:10.1089/ars.2013.5229
PMID:23992126
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3910666/
Abstract

AIMS

Here, we develop a novel cancer treatment modality using mitochondria-targeting, high-fluence, low-power laser irradiation (HF-LPLI) in mouse tumor models and explore the mechanism of mitochondrial injury by HF-LPLI.

RESULTS

We demonstrated that the initial reaction after photon absorption was photosensitization of cytochrome c oxidase (COX), to inhibit enzymatic activity of COX in situ and cause respiratory chain superoxide anion (O2(-•)) burst. We also found that HF-LPLI exerted its main tumor killing effect through mitochondrial O2(-•) burst via electron transport chain (ETC). These phenomena were completely absent in the respiration-deficient cells and COX knockdown cells. With a carefully selected irradiation protocol, HF-LPLI could efficaciously destroy tumors. The inhibition of enzymatic activity of COX and generation of O2(-•) by HF-LPLI in vivo were also detected.

INNOVATION

It is the first time that the mechanism involved in the interaction between light and its photoacceptor under HF-LPLI treatment is clarified. Our results clearly indicate that HF-LPLI initiates its effects via targeted COX photoinactivation and that the tumor-killing efficacy is dependent of the subsequent mitochondrial O2(-•) burst via ETC.

CONCLUSION

Based on both in vitro and in vivo results, we conclude that HF-LPLI can selectively photoinactivate respiratory chain oxidase to trigger a fatal mitochondrial O2(-•) burst, producing oxidative damage on cancer cells. This study opens up the possibilities of applications of HF-LPLI as a mitochondria-targeting cancer phototherapy.

摘要

目的

在这里,我们在小鼠肿瘤模型中开发了一种使用靶向线粒体、高能量、低功率激光辐射(HF-LPLI)的新型癌症治疗模式,并探讨了 HF-LPLI 引起线粒体损伤的机制。

结果

我们证明了光子吸收后的初始反应是细胞色素 c 氧化酶(COX)的光敏化,原位抑制 COX 的酶活性并导致呼吸链超氧阴离子(O2(-•))爆发。我们还发现,HF-LPLI 通过电子传递链(ETC)发挥其主要的肿瘤杀伤作用,通过线粒体 O2(-•)爆发。这些现象在呼吸缺陷细胞和 COX 敲低细胞中完全不存在。通过仔细选择的辐照方案,HF-LPLI 可以有效地破坏肿瘤。还检测到 HF-LPLI 在体内对 COX 酶活性的抑制和 O2(-•)的产生。

创新点

这是首次阐明了 HF-LPLI 治疗下光与其光受体相互作用所涉及的机制。我们的结果清楚地表明,HF-LPLI 通过靶向 COX 光灭活启动其作用,并且肿瘤杀伤效果取决于随后通过 ETC 的线粒体 O2(-•)爆发。

结论

基于体外和体内结果,我们得出结论,HF-LPLI 可以选择性地光灭活呼吸链氧化酶,引发致命的线粒体 O2(-•)爆发,对癌细胞产生氧化损伤。这项研究为 HF-LPLI 作为一种靶向线粒体的癌症光疗开辟了可能性。

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