Abstract
Environmental and metabolic sources of reactive oxygen species (ROS) can damage DNA, proteins and lipids to promote disease. Regulation of gene expression can prevent this damage and can include increased transcription, translation and post translational modification. Cellular responses to ROS play important roles in disease prevention, with deficiencies linked to cancer, neurodegeneration and ageing. Here we detail basal and damage-induced translational regulation of a group of oxidative-stress response enzymes by the tRNA methyltransferase Alkbh8. Using a new gene targeted knockout mouse cell system, we show that Alkbh8-/- embryonic fibroblasts (MEFs) display elevated ROS levels, increased DNA and lipid damage and hallmarks of cellular stress. We demonstrate that Alkbh8 is induced in response to ROS and is required for the efficient expression of selenocysteine-containing ROS detoxification enzymes belonging to the glutathione peroxidase (Gpx1, Gpx3, Gpx6 and likely Gpx4) and thioredoxin reductase (TrxR1) families. We also show that, in response to oxidative stress, the tRNA modification 5-methoxycarbonylmethyl-2′-O-methyluridine (mcm5Um) increases in normal MEFs to drive the expression of ROS detoxification enzymes, with this damage-induced reprogramming of tRNA and stop-codon recoding corrupted in Alkbh8-/- MEFS. These studies define Alkbh8 and tRNA modifications as central regulators of cellular oxidative stress responses in mammalian systems. In addition they highlight a new animal model for use in environmental and cancer studies and link translational regulation to the prevention of DNA and lipid damage.
Highlights
Mammalian alkylation repair homolog 8 (Alkbh8) belongs to a family of nine related proteins, Alkbh1-8 and fat mass and obesity associated (FTO) that all share a conserved 2-oxoglutarateFe(II) oxygenase domain (2OG-Fe(II))[1,2,3]
We are the first group to demonstrate that Alkbh8-/- murine embryonic fibroblasts (MEFs) have elevated intracellular reactive oxygen species (ROS) and increased DNA damage levels, with these phenotypes linked to reduced Gpx1, Gpx3, Gpx6 and TrxR1 protein levels
Further we report that lipid peroxidation products are higher in Alkbh8-/- MEFs after H2O2 treatment, relative to wt, supporting a regulatory link between Alkbh8 and Gpx4
Summary
Mammalian alkylation repair homolog 8 (Alkbh8) belongs to a family of nine related proteins, Alkbh and fat mass and obesity associated (FTO) that all share a conserved 2-oxoglutarateFe(II) oxygenase domain (2OG-Fe(II))[1,2,3]. This domain is structurally homologous to that of the bacterial AlkB protein, the likely ancestral protein. The function of Alkbh family members extends beyond that of nucleic acid modification and repair, as there is evidence to support that Alkbh and 4 are involved in regulating gene expression through histone demethylation and interactions with regulators of transcription, respectively [11,12,13]
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