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An LC-MS Assay to Measure Superoxide Radicals and Hydrogen Peroxide in the Blood System.


ABSTRACT: Red blood cells are constantly exposed to reactive species under physiological or pathological conditions or during administration of xenobiotics. Regardless of the source, its accurate quantification is paramount in the area of theragnostics, which had been elusive up until now. Even if there are a lot of approaches to evaluate the oxidative stress, very sensitive methods are missing for the blood system. We therefore sought to apply a highly sensitive approach, by liquid chromatography coupled to mass spectrometry (UPLC-MS), for the quantification of reactive species such as superoxide radical and hydrogen peroxide using dihydroethidium (DHE) and coumarin boronic acid (CBA) probes respectively through the detection of 2-hydroxyethidium (2OH-E+) and 7-hydroxycoumarin (COH). The use of the high-resolution mass spectrometry associated to UPLC ensured a selective detection of superoxide and hydrogen peroxide in the blood system under diverse conditions such as oxidized red blood cells (RBCs), untreated and treated parasitized RBCs. Moreover, this technique allowed the determination of reactive species in human plasma. This protocol provides a huge opportunity for in-depth study of several pathological conditions vis-a-vis their treatment in modern medicine.

SUBMITTER: Tsamesidis I 

PROVIDER: S-EPMC7280988 | biostudies-literature | 2020 Apr

REPOSITORIES: biostudies-literature

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An LC-MS Assay to Measure Superoxide Radicals and Hydrogen Peroxide in the Blood System.

Tsamesidis Ioannis I   Egwu Chinedu O CO   Pério Pierre P   Augereau Jean-Michel JM   Benoit-Vical Françoise F   Reybier Karine K  

Metabolites 20200428 5


Red blood cells are constantly exposed to reactive species under physiological or pathological conditions or during administration of xenobiotics. Regardless of the source, its accurate quantification is paramount in the area of theragnostics, which had been elusive up until now. Even if there are a lot of approaches to evaluate the oxidative stress, very sensitive methods are missing for the blood system. We therefore sought to apply a highly sensitive approach, by liquid chromatography coupled  ...[more]

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