Issue 18, 2020

On the irrelevancy of hydroxyl radical to DNA damage from oxidative stress and implications for epigenetics

Abstract

Contrary to frequent reports in the literature, hydroxyl radical is not a key species participating in endogenous oxidative DNA damage. Instead, carbonate radical anion is formed from the Fenton reaction under cellular conditions and from decomposition of nitrosoperoxycarbonate generated during inflammation. Carbonate radical anion is a potent one-electron oxidant capable of generating base radical cations that can migrate over long distances in duplex DNA, ultimately generating 8-oxo-7,8-dihydroguanine at a redox-sensitive sequence such as GGG. Such a mechanism enables G-quadruplex-forming sequences to act as long-range sensors of oxidative stress, impacting gene expression via the DNA repair mechanism that reads and ultimately erases the oxidized base. With a writing, reading and erasing mechanism in place, oxidative ‘damage’ to DNA might be relabeled as ‘epigenetic’ modifications.

Graphical abstract: On the irrelevancy of hydroxyl radical to DNA damage from oxidative stress and implications for epigenetics

Article information

Article type
Viewpoint
Submitted
21 May 2020
First published
12 Aug 2020

Chem. Soc. Rev., 2020,49, 6524-6528

On the irrelevancy of hydroxyl radical to DNA damage from oxidative stress and implications for epigenetics

A. M. Fleming and C. J. Burrows, Chem. Soc. Rev., 2020, 49, 6524 DOI: 10.1039/D0CS00579G

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