How and when to measure mitochondrial inner membrane potentials.

IF 3.2 3区生物学 Q2 BIOPHYSICS

Biophysical journal Pub Date : 2024-12-17 Epub Date: 2024-03-07 DOI:10.1016/j.bpj.2024.03.011

Alicia J Kowaltowski, Fernando Abdulkader

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引用次数: 0

Abstract

The scientific literature on mitochondria has increased significantly over the years due to findings that these organelles have widespread roles in the onset and progression of pathological conditions such as metabolic disorders, neurodegenerative and cardiovascular diseases, inflammation, and cancer. Researchers have extensively explored how mitochondrial properties and functions are modified in different models, often using fluorescent inner mitochondrial membrane potential (ΔΨm) probes to assess functional mitochondrial aspects such as protonmotive force and oxidative phosphorylation. This review provides an overview of existing techniques to measure ΔpH and ΔΨm, highlighting their advantages, limitations, and applications. It discusses drawbacks of ΔΨm probes, especially when used without calibration, and conditions where alternative methods should replace ΔΨm measurements for the benefit of the specific scientific objectives entailed. Studies investigating mitochondria and their vast biological roles would be significantly advanced by the understanding of the correct applications as well as limitations of protonmotive force measurements and use of fluorescent ΔΨm probes, adopting more precise, artifact-free, sensitive, and quantitative measurements of mitochondrial functionality.

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如何以及何时测量线粒体内膜电位？

近年来，由于发现线粒体在代谢紊乱、神经退行性疾病、心血管疾病、炎症和癌症等病症的发生和发展过程中起着广泛的作用，有关线粒体的科学文献大幅增加。研究人员广泛探索了线粒体的特性和功能在不同模型中如何发生改变，通常使用荧光线粒体内膜电位（ΔΨm）探针来评估线粒体的质子动能和氧化磷酸化等功能方面。本综述概述了测量 ΔpH 和 ΔΨm 的现有技术，重点介绍了它们的优势、局限性和应用。报告还讨论了ΔΨm 探头的缺点，尤其是在未经校准的情况下使用时，以及在哪些条件下应采用替代方法取代ΔΨm 测量，以实现特定的科学目标。了解质子动力测量的正确应用和局限性以及荧光ΔΨm探针的使用，采用更精确、无伪影、灵敏和定量的线粒体功能测量方法，将极大地推动对线粒体及其巨大生物学作用的研究。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Biophysical journal 生物-生物物理

CiteScore

6.10

自引率

5.90%

发文量

3090

审稿时长

2 months

期刊介绍： BJ publishes original articles, letters, and perspectives on important problems in modern biophysics. The papers should be written so as to be of interest to a broad community of biophysicists. BJ welcomes experimental studies that employ quantitative physical approaches for the study of biological systems, including or spanning scales from molecule to whole organism. Experimental studies of a purely descriptive or phenomenological nature, with no theoretical or mechanistic underpinning, are not appropriate for publication in BJ. Theoretical studies should offer new insights into the understanding ofexperimental results or suggest new experimentally testable hypotheses. Articles reporting significant methodological or technological advances, which have potential to open new areas of biophysical investigation, are also suitable for publication in BJ. Papers describing improvements in accuracy or speed of existing methods or extra detail within methods described previously are not suitable for BJ.