通过成像活性氧生成和线粒体复合物I活性评估喹啉酸诱导的脑损伤中的细胞内过程。

Evaluation of intracellular processes in quinolinic acid-induced brain damage by imaging reactive oxygen species generation and mitochondrial complex I activity.

作者信息

Hosoi Rie, Fujii Yuka, Hiroyuki Ohba, Shukuri Miho, Nishiyama Shingo, Kanazawa Masakatsu, Todoroki Kenichiro, Arano Yasushi, Sakai Toshihiro, Tsukada Hideo, Inoue Osamu

机构信息

Division of Health Sciences, Graduate School of Medicine, Osaka University, 1-7 Yamadaoka, Suita, Osaka, 565-0871, Japan.

Central Research Laboratory, Hamamatsu Photonics K. K, 5000 Hirakuchi, Hamakita, Hamamatsu, Shizuoka, 434-8601, Japan.

出版信息

EJNMMI Res. 2021 Oct 9;11(1):99. doi: 10.1186/s13550-021-00841-3.

DOI:10.1186/s13550-021-00841-3

PMID:34628558

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8502189/

Abstract

PURPOSE

Our study aimed to elucidate the intracellular processes associated with quinolinic acid (QA)-induced brain injury by acquiring semiquantitative fluorescent images of reactive oxygen species (ROS) generation and positron emission tomography (PET) images of mitochondrial complex I (MC-I) activity.

METHODS

Ex vivo fluorescent imaging with dihydroethidium (DHE) and PET scans with F-BCPP-EF were conducted at 3 h and 24 h after QA injection into the rat striatum. Immunohistochemical studies were performed 24 h after QA injection into the rat brain using monoclonal antibodies against neuronal nuclei (NeuN) and CD11b.

RESULTS

A strong DHE-derived fluorescent signal was detected in a focal area within the QA-injected striatum 3 h after QA injection, and increased fluorescent signal spread throughout the striatum and parts of the cerebral cortex after 24 h. By contrast, F-BCPP-EF uptake in the QA-injected rat brain was unchanged after 3 h and markedly decreased after 24 h, not only in the striatum but also in the cerebral hemisphere. The fluorescent signal in the striatum 24 h after QA injection colocalised with microglial marker expression.

CONCLUSIONS

We successfully obtained functional images of focal ROS generation during the early period of excitotoxic injury, and microglial ROS generation and mitochondrial dysfunction were observed during the progression of the inflammatory response. Both ex vivo DHE imaging and in vivo F-BCPP-EF-PET were sufficiently sensitive to detect the respective processes of QA-induced brain damage. Our study contributes to the functional imaging of multiple events during the pathological process.

摘要

目的

我们的研究旨在通过获取活性氧（ROS）生成的半定量荧光图像和线粒体复合物I（MC-I）活性的正电子发射断层扫描（PET）图像，阐明与喹啉酸（QA）诱导的脑损伤相关的细胞内过程。

方法

在将QA注射到大鼠纹状体后3小时和24小时，进行二氢乙锭（DHE）的离体荧光成像和F-BCPP-EF的PET扫描。在将QA注射到大鼠脑内24小时后，使用针对神经元细胞核（NeuN）和CD11b的单克隆抗体进行免疫组织化学研究。

结果

QA注射后3小时，在注射QA的纹状体内的一个局灶区域检测到强烈的DHE衍生荧光信号，24小时后荧光信号增强并扩散至整个纹状体和部分大脑皮层。相比之下，注射QA的大鼠脑内F-BCPP-EF摄取在3小时后未改变，24小时后显著降低，不仅在纹状体，在大脑半球也如此。QA注射后24小时纹状体内的荧光信号与小胶质细胞标志物表达共定位。

结论

我们成功获得了兴奋性毒性损伤早期局灶性ROS生成的功能图像，并且在炎症反应进展过程中观察到小胶质细胞ROS生成和线粒体功能障碍。离体DHE成像和体内F-BCPP-EF-PET都足够灵敏以检测QA诱导脑损伤的各自过程。我们的研究有助于对病理过程中多个事件进行功能成像。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3faf/8502189/44d3c6652b8a/13550_2021_841_Fig1_HTML.jpg

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通过成像活性氧生成和线粒体复合物I活性评估喹啉酸诱导的脑损伤中的细胞内过程。

Evaluation of intracellular processes in quinolinic acid-induced brain damage by imaging reactive oxygen species generation and mitochondrial complex I activity.

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