Karina M. O’Connor scite author profile

Excessive generation of oxidants by immune cells results in acute tissue damage. One mechanism by which oxidant exposure could have long-term effects is modulation of epigenetic pathways. We hypothesized that methylation of newly synthesized DNA in proliferating cells can be altered by oxidants that target DNA methyltransferase activity or deplete its substrate, the methyl donor SAM. To this end, we investigated the effect of two oxidants produced by neutrophils, H2O2 and glycine chloramine, on maintenance DNA methylation in Jurkat T lymphoma cells. Using cell synchronization and MS-based analysis, we measured heavy deoxycytidine isotope incorporation into newly synthesized DNA and observed that a sublethal bolus of glycine chloramine, but not H2O2, significantly inhibited DNA methylation. Both oxidants inhibited DNA methyltransferase 1 activity, but only chloramine depleted SAM, suggesting that removal of substrate was the most effective means of inhibiting DNA methylation. These results indicate that immune cell–derived oxidants generated during inflammation have the potential to affect the epigenome of neighboring cells.

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Peroxiredoxins and the Regulation of Cell Death

Hampton

O’Connor

2016

Molecules and Cells

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Cell death pathways such as apoptosis can be activated in response to oxidative stress, enabling the disposal of damaged cells. In contrast, controlled intracellular redox events are proposed to be a significant event during apoptosis signaling, regardless of the initiating stimulus. In this scenario oxidants act as second messengers, mediating the post-translational modification of specific regulatory proteins. The exact mechanism of this signaling is unclear, but increased understanding offers the potential to promote or inhibit apoptosis through modulating the redox environment of cells. Peroxiredoxins are thiol peroxidases that remove hydroperoxides, and are also emerging as important players in cellular redox signaling. This review discusses the potential role of peroxiredoxins in the regulation of apoptosis, and also their ability to act as biomarkers of redox changes during the initiation and progression of cell death.

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Hairpin-bisulfite sequencing of cells exposed to decitabine documents the process of DNA demethylation

et al. 2020

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Regulation of the epigenetic landscape by immune cell oxidants

Das

Seddon

O’Connor

et al. 2021

Free Radical Biology and Medicine

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Isothiocyanates trigger early disruption of mitochondrial function in cells overexpressing Bcl-2

Spencer

O’Connor

Hampton

2017

Free Radical Biology and Medicine

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Karina M. O’Connor

Inhibition of DNA methylation in proliferating human lymphoma cells by immune cell oxidants

Peroxiredoxins and the Regulation of Cell Death

Hairpin-bisulfite sequencing of cells exposed to decitabine documents the process of DNA demethylation

Regulation of the epigenetic landscape by immune cell oxidants

Isothiocyanates trigger early disruption of mitochondrial function in cells overexpressing Bcl-2

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