p-Nitrostilbene-tert-Butyl-Nitrone: a Novel Fluorescent Spin Trap for the Detection of ROS with Subcellular Resolution

A fluorescent nitrone composed of a nitrostilbene moiety and the tert -butyl-nitrone has been synthesized. Upon addition of short-lived oxygen radicals a relatively stable nitroxide is formed which quenches the fluorescence. Simultaneously, the fluorescence maximum is shifted to shorter wavelength d...

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Bibliographic Details
Published in:Applied magnetic resonance 2009-12, Vol.36 (2-4), p.133-147
Main Authors: Hauck, Stefan, Lorat, Yvonne, Leinisch, Fabian, Trommer, Wolfgang E.
Format: Article
Language:English
Subjects:
Atoms and Molecules in Strong Fields
Chromatography
Electron paramagnetic resonance
Fluorescence
Hydrocarbons
Hydroxyl radicals
Laser Matter Interaction
Laser microscopy
Mitochondria
NMR
Nuclear magnetic resonance
Organic Chemistry
Oxygen
Penicillin
Physical Chemistry
Physics
Physics and Astronomy
Protons
Solid State Physics
Solvents
Spectroscopy/Spectrometry
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Summary:A fluorescent nitrone composed of a nitrostilbene moiety and the tert -butyl-nitrone has been synthesized. Upon addition of short-lived oxygen radicals a relatively stable nitroxide is formed which quenches the fluorescence. Simultaneously, the fluorescence maximum is shifted to shorter wavelength due to the shorter conjugated system. Hence, by means of confocal laser microscopy the formation of reactive oxygen species can be followed with subcellular resolution. The probe co-localizes with mitochondria. Quench was followed in Chinese hamster ovary cells on the second time scale either after generation of hydroxyl radicals by the Fenton reaction or, at almost the same rate, by blocking complexes I and III of the respiratory chain by rotenone and antimycin A. The fluorescence lasted for more than 20 min in controls. The fluorescence decay can be followed in a video presentation on our homepage ( http://pcbc00.chemie.uni-kl.de/videostream/stream2java.html ). The nature of the initial radical may eventually be determined by electron paramagnetic resonance spectroscopy of the adduct.
ISSN:0937-9347
1613-7507
DOI:10.1007/s00723-009-0025-3