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Review
. 2010 Apr 15;48(8):983-1001.
doi: 10.1016/j.freeradbiomed.2010.01.028. Epub 2010 Jan 29.

Hydroethidine- and MitoSOX-derived red fluorescence is not a reliable indicator of intracellular superoxide formation: another inconvenient truth

Jacek Zielonka  1 B Kalyanaraman
Affiliations
Review

Hydroethidine- and MitoSOX-derived red fluorescence is not a reliable indicator of intracellular superoxide formation: another inconvenient truth

Jacek Zielonka et al. Free Radic Biol Med. .

Abstract

Hydroethidine (HE; or dihydroethidium) is the most popular fluorogenic probe used for detecting intracellular superoxide radical anion. The reaction between superoxide and HE generates a highly specific red fluorescent product, 2-hydroxyethidium (2-OH-E(+)). In biological systems, another red fluorescent product, ethidium, is also formed, usually at a much higher concentration than 2-OH-E(+). In this article, we review the methods to selectively detect the superoxide-specific product (2-OH-E(+)) and the factors affecting its levels in cellular and biological systems. The most important conclusion of this review is that it is nearly impossible to assess the intracellular levels of the superoxide-specific product, 2-OH-E(+), using confocal microscopy or other fluorescence-based microscopic assays and that it is essential to measure by HPLC the intracellular HE and other oxidation products of HE, in addition to 2-OH-E(+), to fully understand the origin of red fluorescence. The chemical reactivity of mitochondria-targeted hydroethidine (Mito-HE, MitoSOX red) with superoxide is similar to the reactivity of HE with superoxide, and therefore, all of the limitations attributed to the HE assay are applicable to Mito-HE (or MitoSOX) as well.

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Figures

Figure 1
Figure 1
Structure of HE and Mito-HE.
Figure 2
Figure 2
Reduction of E+ and Mito-E+ by NaBH4.
Figure 3
Figure 3
Spectroscopic properties of HE and its oxidation products. (A) UV-Vis absorption spectra; (B) Fluorescence spectra; (C) Fluorescence spectra in the presence of DNA.
Figure 4
Figure 4
Formation of 2-hydroxyethidium.
Figure 5
Figure 5
Hypothetical mechanism of the reaction of HE with superoxide radical anion.
Figure 6
Figure 6
Transformations of HE upon one-electron oxidation.
See this image and copyright information in PMC

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