Nitro-oleic acid regulates T cell activation through post-translational modification of calcineurin.
Ángel BagoM Laura CayuelaAlba GilEnrique CalvoJesus VazquezAntonio QueiroFrancisco J SchopferRafael RadiJuan M SerradorMiguel A ÍñiguezPublished in: Proceedings of the National Academy of Sciences of the United States of America (2023)
Nitro-fatty acids (NO 2 -FAs) are unsaturated fatty acid nitration products that exhibit anti-inflammatory actions in experimental mouse models of autoimmune and allergic diseases. These electrophilic molecules interfere with intracellular signaling pathways by reversible post-translational modification of nucleophilic amino-acid residues. Several regulatory proteins have been identified as targets of NO 2 -FAs, modifying their activity and promoting gene expression changes that result in anti-inflammatory effects. Herein, we report the effects of nitro-oleic acid (NO 2 -OA) on pro-inflammatory T cell functions, showing that 9- and 10-NOA, but not their oleic acid precursor, decrease T cell proliferation, expression of activation markers CD25 and CD71 on the plasma membrane, and IL-2, IL-4, and IFN-γ cytokine gene expressions. Moreover, we have found that NO 2 -OA inhibits the transcriptional activity of nuclear factor of activated T cells (NFAT) and that this inhibition takes place through the regulation of the phosphatase activity of calcineurin (CaN), hindering NFAT dephosphorylation, and nuclear translocation in activated T cells. Finally, using mass spectrometry-based approaches, we have found that NO 2 -OA nitroalkylates CaNA on four Cys (Cys129, 228, 266, and 372), of which only nitroalkylation on Cys372 was of importance for the regulation of CaN phosphatase activity in cells, disturbing functional CaNA/CaNB heterodimer formation. These results provide evidence for an additional mechanism by which NO 2 -FAs exert their anti-inflammatory actions, pointing to their potential as therapeutic bioactive lipids for the modulation of harmful T cell-mediated immune responses.
Keyphrases
- copy number
- nuclear factor
- fatty acid
- genome wide
- gene expression
- anti inflammatory
- immune response
- cell proliferation
- mass spectrometry
- induced apoptosis
- amino acid
- signaling pathway
- transcription factor
- poor prognosis
- mouse model
- multiple sclerosis
- high resolution
- dendritic cells
- pi k akt
- cell cycle arrest
- endoplasmic reticulum stress
- heat shock