Primary saturation of α, β-unsaturated carbonyl containing fatty acids does not abolish electrophilicity

Nathaniel W. Snyder, James O'Brien, Bhupinder Singh, Gregory Buchan, Alejandro D. Arroyo, Xiaojing Liu, Anna Bostwick, Erika L. Varner, Anusha Angajala, Robert W. Sobol, Ian A. Blair, Clementina Mesaros, Stacy G. Wendell

Research output: Contribution to journalArticlepeer-review

1 Scopus citations

Abstract

Metabolism of polyunsaturated fatty acids results in the formation of hydroxylated fatty acids that can be further oxidized by dehydrogenases, often resulting in the formation of electrophilic, α,β-unsaturated ketone containing fatty acids. As electrophiles are associated with redox signaling, we sought to investigate the metabolism of the oxo-fatty acid products in relation to their double bond architecture. Using an untargeted liquid chromatography mass spectrometry approach, we identified mono- and di-saturated products of the arachidonic acid-derived 11-oxoeicosatetraenoic acid (11-oxoETE) and mono-saturated metabolites of 15-oxoETE and docosahexaenoic acid-derived 17-oxodocosahexaenoinc acid (17-oxoDHA) in both human A549 lung carcinoma and umbilical vein endothelial cells. Notably, mono-saturated oxo-fatty acids maintained their electrophilicity as determined by nucleophilic conjugation to glutathione while a second saturation of 11-oxoETE resulted in a loss of electrophilicity. These results would suggest that prostaglandin reductase 1 (PTGR1), known only for its reduction of the α,β-unsaturated double bond, was not responsible for the saturation of oxo-fatty acids at alternative double bonds. Surprisingly, knockdown of PTGR1 expression by shRNA confirmed its participation in the formation of 15-oxoETE and 17-oxoDHA mono-saturated metabolites. Furthermore, overexpression of PTGR1 in A549 cells increased the rate and total amount of oxo-fatty acid saturation. These findings will further facilitate the study of electrophilic fatty acid metabolism and signaling in the context of inflammatory diseases and cancer where they have been shown to have anti-inflammatory and anti-proliferative signaling properties.

Original languageEnglish
Article number109689
JournalChemico-Biological Interactions
Volume350
DOIs
StatePublished - Dec 1 2021
Externally publishedYes

Keywords

  • Dehydrogenase
  • Eicosanoids
  • Fatty acid/metabolism
  • Fatty acid/oxidation
  • KETE
  • Mass spectrometry
  • Prostaglandin reductase
  • oxoETE

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