Quantitative optical measurement of mitochondrial superoxide dynamics in pulmonary artery endothelial cells.

IF 2.3 3区医学 Q2 OPTICS Journal of Innovative Optical Health Sciences Pub Date : 2018-01-01 DOI:10.1142/S1793545817500183

Zahra Ghanian, Girija Ganesh Konduri, Said Halim Audi, Amadou K S Camara, Mahsa Ranji

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引用次数: 9

Abstract

Reactive oxygen species (ROS) play a vital role in cell signaling and redox regulation, but when present in excess, lead to numerous pathologies. Detailed quantitative characterization of mitochondrial superoxide anion ( $O_{2}^{• -}$ ) production in fetal pulmonary artery endothelia cells (PAECs) has never been reported. The aim of this study is to assess mitochondrial $O_{2}^{• -}$ production in cultured PAECs over time using a novel quantitative optical approach. The rate, the sources, and the dynamics of $O_{2}^{• -}$ production were assessed using targeted metabolic modulators of the mitochondrial electron transport chain (ETC) complexes, specifically an uncoupler and inhibitors of the various ETC complexes, and inhibitors of extra-mitochondrial sources of $O_{2}^{• -}$ . After stabilization, the cells were loaded with nanomolar mitochondrial-targeted hydroethidine (Mito-HE, MitoSOX) online during the experiment without washout of the residual dye. Time-lapse fluorescence microscopy was used to monitor the dynamic changes in $O_{2}^{• -}$ fluorescence intensity over time in PAECs. The transient behaviors of the fluorescence time course showed exponential increases in the rate of $O_{2}^{• -}$ production in the presence of the ETC uncoupler or inhibitors. The most dramatic and the fastest increase in $O_{2}^{• -}$ production was observed when the cells were treated with the uncoupling agent, PCP. We also showed that only the complex IV inhibitor, KCN, attenuated the marked surge in $O_{2}^{• -}$ production induced by PCP. The results showed that mitochondrial respiratory complexes I, III and IV are sources of $O_{2}^{• -}$ production in PAECs, and a new observation that ROS production during uncoupling of mitochondrial respiration is mediated in part via complex IV. This novel method can be applied in other studies that examine ROS production under stress condition and during ROS-mediated injuries in vitro.

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肺动脉内皮细胞线粒体超氧化物动力学的定量光学测量。

活性氧(ROS)在细胞信号传导和氧化还原调节中起着至关重要的作用，但当过量存在时，会导致许多病理。胎儿肺动脉内皮细胞(PAECs)线粒体超氧阴离子(O2•-)产生的详细定量表征从未报道过。本研究的目的是利用一种新的定量光学方法来评估培养paec随着时间的推移产生的线粒体O2•。利用线粒体电子传递链(ETC)复合物的靶向代谢调节剂，特别是各种ETC复合物的解耦剂和抑制剂，以及线粒体外O2•-来源的抑制剂，评估了O2•-产生的速率、来源和动力学。稳定后，在实验期间将细胞在线加载纳米摩尔线粒体靶向氢乙啶(Mito-HE, MitoSOX)，不冲洗残留染料。采用延时荧光显微镜监测paec中O2•-荧光强度随时间的动态变化。在ETC解偶联剂或抑制剂的存在下，荧光时间过程的瞬态行为表明O2•-的生成速率呈指数增长。用解偶联剂PCP处理细胞时，O2•生成的增加最为显著和最快。我们还发现，只有复合物IV抑制剂KCN能减弱PCP诱导的O2•-生成的显著激增。结果表明，线粒体呼吸复合体I、III和IV是paec中产生O2•-的来源，这是一项新的观察，即线粒体呼吸解偶联过程中ROS的产生部分是通过复合体IV介导的。这种新方法可以应用于其他研究，研究应激条件下和ROS介导的体外损伤过程中ROS的产生。

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来源期刊

Journal of Innovative Optical Health Sciences OPTICS-RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING

CiteScore

4.50

自引率

20.00%

发文量

审稿时长

>12 weeks

期刊介绍： JIOHS serves as an international forum for the publication of the latest developments in all areas of photonics in biology and medicine. JIOHS will consider for publication original papers in all disciplines of photonics in biology and medicine, including but not limited to: -Photonic therapeutics and diagnostics- Optical clinical technologies and systems- Tissue optics- Laser-tissue interaction and tissue engineering- Biomedical spectroscopy- Advanced microscopy and imaging- Nanobiophotonics and optical molecular imaging- Multimodal and hybrid biomedical imaging- Micro/nanofabrication- Medical microsystems- Optical coherence tomography- Photodynamic therapy. JIOHS provides a vehicle to help professionals, graduates, engineers, academics and researchers working in the field of intelligent photonics in biology and medicine to disseminate information on the state-of-the-art technique.