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Vitamin E hydroquinone is an endogenous regulator of ferroptosis via redox control of 15-lipoxygenase.

Andrew HinmanCharles R HolstJoey C LathamJoel J BrueggerGözde UlasKevin P McCuskerAkiko AmagataDana DavisKevin G HoffAmanda H Kahn-KirbyVirna KimYuko KosakaEdgar LeeStephanie A MaloneJanet J MeiSteve James RichardsVeronica RiveraGuy MillerJeffrey K TrimmerWilliam D Shrader
Published in: PloS one (2018)
Ferroptosis is a form of programmed cell death associated with inflammation, neurodegeneration, and ischemia. Vitamin E (alpha-tocopherol) has been reported to prevent ferroptosis, but the mechanism by which this occurs is controversial. To elucidate the biochemical mechanism of vitamin E activity, we systematically investigated the effects of its major vitamers and metabolites on lipid oxidation and ferroptosis in a striatal cell model. We found that a specific endogenous metabolite of vitamin E, alpha-tocopherol hydroquinone, was a dramatically more potent inhibitor of ferroptosis than its parent compound, and inhibits 15-lipoxygenase via reduction of the enzyme's non-heme iron from its active Fe3+ state to an inactive Fe2+ state. Furthermore, a non-metabolizable isosteric analog of vitamin E which retains antioxidant activity neither inhibited 15-lipoxygenase nor prevented ferroptosis. These results call into question the prevailing model that vitamin E acts predominantly as a non-specific lipophilic antioxidant. We propose that, similar to the other lipophilic vitamins A, D and K, vitamin E is instead a pro-vitamin, with its quinone/hydroquinone metabolites responsible for its anti-ferroptotic cytoprotective activity.
Keyphrases
  • cell death
  • oxidative stress
  • anti inflammatory
  • ms ms
  • single cell
  • transcription factor
  • functional connectivity
  • parkinson disease
  • nitric oxide
  • metal organic framework
  • atomic force microscopy