比较10-n-壬基吖啶橙和罗丹明123对线粒体的流式细胞分析。

Basic and applied histochemistry Pub Date : 1989-01-01
L Benel, X Ronot, J C Mounolou, F Gaudemer, M Adolphe
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引用次数: 0

摘要

使用上生命线粒体特异性染料罗丹明123 (Rh 123)与流式细胞术相结合,可以监测线粒体跨膜电位的变化,反映活细胞的整体线粒体活性。虽然这种探针似乎是这些研究的有力工具,但它在解释结果时也表现出一个重要的限制:它不能区分没有生物发生的线粒体活性增加和线粒体含量的改变。10-n-壬基吖啶橙氯(NAO)是另一种线粒体特异性荧光色素。与Rh 123相反,NAO在细胞中的积累似乎不是由质子-分子力驱动的,而是与线粒体膜蛋白和/或脂质的特定相互作用有关。在这项工作中,用流式细胞术测定了NAO的细胞毒性、细胞摄取和染料释放的动力学。几种离子载体或线粒体抑制剂的使用证实了NAO摄取对线粒体跨膜电位的独立性。NAO还用于检查关节软骨细胞从软骨转移到培养条件时线粒体室的变化,其中Rh 123证明了线粒体活性和/或生物发生的变化,以便了解使用不同特异性的探针是否可以区分线粒体活性和生物发生。
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Compared flow cytometric analysis of mitochondria using 10-n-nonyl acridine orange and rhodamine 123.

The use of the supravital mitochondrial-specific dye Rhodamine 123 (Rh 123) in combination with flow cytometry permits the monitoring of the changes in the mitochondrial transmembrane potential, reflecting the overall mitochondrial activity of the living cell. While this probe appears to be a potent tool for these studies, it also exhibits an important limit in the interpretation of the results: it cannot distinguish between an increase in mitochondrial activity without biogenesis and a modification of mitochondrial content. 10-n-Nonyl Acridine Orange chloride (NAO) constitutes another mitochondrial specific fluorochrome. In contrast with Rh 123, NAO accumulation in the cell does not seem to be driven by the proton-motrice force but does seem to be related to specific interactions with mitochondrial membrane proteins and/or lipids. In this work, the cytotoxicity of NAO, the kinetics of cellular uptake and the release of the dye have been determined using flow cytometry. The use of several ionophores or mitochondrial inhibitors has confirmed the independence of NAO uptake regarding mitochondrial transmembrane potential. NAO was also used to examine the changes in the mitochondrial compartment during the transfer of articular chondrocytes from cartilage to the culture conditions, where Rh 123 evidenced changes in mitochondrial activity and/or biogenesis, in order to know whether the use of probes with different specificity allows one to distinguish between mitochondrial activity and biogenesis.

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