A ratiometric fluorescent probe for assessing mitochondrial phospholipid peroxidation within living cells.
Publication year
2012Source
Free Radical Biology and Medicine, 53, 3, (2012), pp. 544-53ISSN
Publication type
Article / Letter to editor
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Organization
Biochemistry (UMC)
Paediatrics - OUD tm 2017
Cell Biology (UMC)
Journal title
Free Radical Biology and Medicine
Volume
vol. 53
Issue
iss. 3
Page start
p. 544
Page end
p. 53
Subject
IGMD 8: Mitochondrial medicine; NCMLS 4: Energy and redox metabolism; NCMLS 4: Energy and redox metabolism IGMD 8: Mitochondrial medicineAbstract
Mitochondrial oxidative damage contributes to a wide range of pathologies, and lipid peroxidation of the mitochondrial inner membrane is a major component of this disruption. However, despite its importance, there are no methods to assess mitochondrial lipid peroxidation within cells specifically. To address this unmet need we have developed a ratiometric, fluorescent, mitochondria-targeted lipid peroxidation probe, MitoPerOx. This compound is derived from the C11-BODIPY(581/591) probe, which contains a boron dipyromethane difluoride (BODIPY) fluorophore conjugated via a dienyl link to a phenyl group. In response to lipid peroxidation the fluorescence emission maximum shifts from approximately 590 to approximately 520nm. To target this probe to the matrix-facing surface of the mitochondrial inner membrane we attached a triphenylphosphonium lipophilic cation, which leads to its selective uptake into mitochondria in cells, driven by the mitochondrial membrane potential. Here we report on the development and characterization of MitoPerOx. We found that MitoPerOx was taken up very rapidly into mitochondria within cells, where it responded to changes in mitochondrial lipid peroxidation that could be measured by fluorimetry, confocal microscopy, and epifluorescence live cell imaging. Importantly, the peroxidation-sensitive change in fluorescence at 520nm relative to that at 590nm enabled the use of the probe as a ratiometric fluorescent probe, greatly facilitating assessment of mitochondrial lipid peroxidation in cells.
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- Academic publications [243984]
- Faculty of Medical Sciences [92811]
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