Increasing extracellular H2O2 produces a bi-phasic response in intracellular H2O2, with peroxiredoxin hyperoxidation only triggered once the cellular H2O2-buffering capacity is overwhelmed

Article

Tomalin, Lewis Elwood, Day, Alison Michelle, Underwood, Zoe Elizabeth, Smith, Graham Robert, Dalle Pezze, Piero, Rallis, C., Patel, Waseema, Dickinson, Bryan Craig, Bähler, Jürg, Brewer, Thomas Francis, Chang, Christopher Joh-Leung, Shanley, Daryl Pierson and Veal, Elizabeth Ann 2016. Increasing extracellular H2O2 produces a bi-phasic response in intracellular H2O2, with peroxiredoxin hyperoxidation only triggered once the cellular H2O2-buffering capacity is overwhelmed. Free Radical Biology and Medicine. 95, pp. 333-348. https://doi.org/10.1016/j.freeradbiomed.2016.02.035
AuthorsTomalin, Lewis Elwood, Day, Alison Michelle, Underwood, Zoe Elizabeth, Smith, Graham Robert, Dalle Pezze, Piero, Rallis, C., Patel, Waseema, Dickinson, Bryan Craig, Bähler, Jürg, Brewer, Thomas Francis, Chang, Christopher Joh-Leung, Shanley, Daryl Pierson and Veal, Elizabeth Ann
Abstract

Reactive oxygen species, such as H2O2, can damage cells but also promote fundamental processes, including growth, differentiation and migration. The mechanisms allowing cells to differentially respond to toxic or signaling H2O2 levels are poorly defined. Here we reveal that increasing external H2O2 produces a bi-phasic response in intracellular H2O2. Peroxiredoxins (Prx) are abundant peroxidases which protect against genome instability, ageing and cancer. We have developed a dynamic model simulating in vivo changes in Prx oxidation. Remarkably, we show that the thioredoxin peroxidase activity of Prx does not provide any significant protection against external rises in H2O2. Instead, our model and experimental data are consistent with low levels of extracellular H2O2 being efficiently buffered by other thioredoxin-dependent activities, including H2O2-reactive cysteines in the thiol-proteome. We show that when extracellular H2O2 levels overwhelm this buffering capacity, the consequent rise in intracellular H2O2 triggers hyperoxidation of Prx to thioredoxin-resistant, peroxidase-inactive form/s. Accordingly, Prx hyperoxidation signals that H2O2 defenses are breached, diverting thioredoxin to repair damage.

JournalFree Radical Biology and Medicine
Journal citation95, pp. 333-348
ISSN08915849
Year2016
PublisherElsevier
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Digital Object Identifier (DOI)https://doi.org/10.1016/j.freeradbiomed.2016.02.035
Web address (URL)https://doi.org/10.1016/j.freeradbiomed.2016.02.035
Publication dates
Online02 Mar 2016
Publication process dates
Deposited07 Feb 2018
Accepted29 Feb 2016
Accepted29 Feb 2016
FunderBiotechnology and Biological Sciences Research Council
Biotechnology and Biological Sciences Research Council
Biotechnology and Biological Sciences Research Council
Biotechnology and Biological Sciences Research Council
Wellcome Trust
National Institutes of Health
National Institutes of Health
Copyright information© 2016 The authors
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