Sonia R. Salvatore scite author profile

SUMMARY To fulfill bioenergetic demands of activation, T cells perform aerobic glycolysis, a process common to highly proliferative cells in which glucose is fermented into lactate rather than oxidized in mitochondria. However, the signaling events that initiate aerobic glycolysis in T cells remain unclear. We show T cell activation rapidly induces glycolysis independent of transcription, translation, CD28, and Akt and not involving increased glucose uptake or activity of glycolytic enzymes. Rather, TCR signaling promotes activation of pyruvate dehydrogenase kinase 1 (PDHK1), inhibiting mitochondrial import of pyruvate and facilitating breakdown into lactate. Inhibition of PDHK1 reveals this switch is required acutely for cytokine synthesis but dispensable for cytotoxicity. Functionally, cytokine synthesis is modulated via lactate dehydrogenase, which represses cytokine mRNA translation when aerobic glycolysis is disengaged. Our data provide mechanistic insight to metabolic contribution to effector T cell function and suggest that T cell function may be finely tuned through modulation of glycolytic activity.

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Conjugated Linoleic Acid Is a Preferential Substrate for Fatty Acid Nitration

Bonacci

Baker

Salvatore

et al. 2012

Journal of Biological Chemistry

131

179

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Background: Nitroalkene fatty acids are electrophilic cell metabolites that mediate anti-inflammatory signaling actions. Results: Conjugated linoleic acid is the preferential unsaturated fatty acid substrate for nitration reactions during oxidative inflammatory conditions and digestion. Conclusion: Nitro-fatty acid formation in vivo occurs during metabolic and inflammatory reactions and modulates cell signaling. Significance: Nitro-conjugated linoleic acid transduces signaling actions of nitric oxide, nitrite, and conjugated linoleic acid.

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Nitro-fatty acids are formed in response to virus infection and are potent inhibitors of STING palmitoylation and signaling

Hansen

Buchan

Rühl

et al. 2018

Proc. Natl. Acad. Sci. U.S.A.

164

176

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SignificanceSeveral chronic inflammatory conditions have recently been shown to depend on abnormally high activity of the signaling protein stimulator of IFN genes (STING). These conditions include examples from systemic lupus erythematosus, Aicardi–Goutiéres syndrome, and STING-associated vasculopathy with onset in infancy. The involvement of STING in these diseases points to an unmet demand to identify inhibitors of STING signaling, which could form the basis of anti-STING therapeutics. With this report, we identify distinct endogenously formed lipid species as potent inhibitors of STING signaling—and propose that these lipids could have pharmaceutical potential for treatment of STING-dependent inflammatory diseases.

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Electrophilic nitro-fatty acids inhibit vascular inflammation by disrupting LPS-dependent TLR4 signalling in lipid rafts

et al. 2013

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Characterization and quantification of endogenous fatty acid nitroalkene metabolites in human urine

Salvatore

Vitturi

Baker

et al. 2013

Journal of Lipid Research

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This article is available online at http://www.jlr.org biomolecule nitration ( 1 ). Nitroalkene substituents are electrophilic and promote Michael addition of fatty acids with biological nucleophiles such as cysteine and histidine. The extent, rate, and reversibility of these reactions will be dictated both by the concentration and reactivity of individual nucleophiles. In this regard, protein structure and compartmentalization affect the reactivity of individual nucleophilic centers and will defi ne the molecular targets of electrophilic fatty acids.While enzymatically-oxygenated unsaturated fatty acids typically transduce anti-infl ammatory actions via specifi c g protein-coupled receptor ligand activity ( 2, 3 ), transcriptional responses to electrophilic fatty acids reveal that a broader array of signaling events are instigated ( 4, 5 ). The basis for this pleiotropy resides in the facile Michael addition of electrophilic fatty acid derivatives with nucleophilic centers of proteins that regulate structure and function ( 6 ). Functionally-signifi cant protein targets of electrophilic fatty acids include the transcriptional regulatory protein complex nuclear factor kappa B (NFkB), the

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Olives and Olive Oil Are Sources of Electrophilic Fatty Acid Nitroalkenes

et al. 2014

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Extra virgin olive oil (EVOO) and olives, key sources of unsaturated fatty acids in the Mediterranean diet, provide health benefits to humans. Nitric oxide (•NO) and nitrite (NO2 −)-dependent reactions of unsaturated fatty acids yield electrophilic nitroalkene derivatives (NO2-FA) that manifest salutary pleiotropic cell signaling responses in mammals. Herein, the endogenous presence of NO2-FA in both EVOO and fresh olives was demonstrated by mass spectrometry. The electrophilic nature of these species was affirmed by the detection of significant levels of protein cysteine adducts of nitro-oleic acid (NO2-OA-cysteine) in fresh olives, especially in the peel. Further nitration of EVOO by NO2 − under acidic gastric digestive conditions revealed that human consumption of olive lipids will produce additional nitro-conjugated linoleic acid (NO2-cLA) and nitro-oleic acid (NO2-OA). The presence of free and protein-adducted NO2-FA in both mammalian and plant lipids further affirm a role for these species as signaling mediators. Since NO2-FA instigate adaptive anti-inflammatory gene expression and metabolic responses, these redox-derived metabolites may contribute to the cardiovascular benefits associated with the Mediterranean diet.

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Nitrite and nitrate-dependent generation of anti-inflammatory fatty acid nitroalkenes

Delmastro-Greenwood

Hughan

Vitturi

et al. 2015

Free Radical Biology and Medicine

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A gap in our understanding of the beneficial systemic responses to dietary constituents nitrate (NO3−), nitrite (NO2−) and conjugated linoleic acid (cLA) is the identification of the downstream metabolites that mediate their actions. To examine these reactions in a clinical context, investigational drug preparations of 15N-labeled NO3− and NO2− were orally administered to healthy humans with and without cLA. Mass spectrometry analysis of plasma and urine indicated that the nitrating species nitrogen dioxide was formed and reacted with the olefinic carbons of unsaturated fatty acids to yield the electrophilic fatty acid, nitro-cLA (NO2-cLA). These species mediate the post-translational modification (PTM) of proteins via reversible Michael addition with nucleophilic amino acids. The PTM of critical target proteins by electrophilic lipids has been described as a sensing mechanism that regulates adaptive cellular responses, but little is known about the endogenous generation of fatty acid nitroalkenes and their metabolites. We report that healthy humans consuming 15N-labeled NO3− or NO2−, with and without cLA supplementation, produce 15NO2-cLA and corresponding metabolites that are detected in plasma and urine. These data support that the dietary constituents NO3−, NO2− and cLA promote the further generation of secondary electrophilic lipid products that are absorbed into the circulation at concentrations sufficient to exert systemic effects before being catabolized or excreted.

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Synaptic Zn²⁺Inhibits Neurotransmitter Release by Promoting Endocannabinoid Synthesis

Perez‐Rosello¹,

Anderson²,

Schöpfer³

et al. 2013

J. Neurosci.

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Although it is well established that many glutamatergic neurons sequester Zn2+ within their synaptic vesicles, the physiological significance of synaptic Zn2+ remains poorly understood. In experiments performed in a Zn2+-enriched auditory brainstem nucleus -- the dorsal cochlear nucleus -- we discovered that synaptic Zn2+ and GPR39, a putative metabotropic Zn2+-sensing receptor (mZnR), are necessary for triggering the synthesis of the endocannabinoid 2-arachidonoylglycerol (2-AG). The postsynaptic production of 2-AG, in turn, inhibits presynaptic probability of neurotransmitter release, thus shaping synaptic strength and short-term synaptic plasticity. Zn2+-induced inhibition of transmitter release is absent in mutant mice that lack either vesicular Zn2+ or the mZnR. Moreover, mass spectrometry measurements of 2-AG levels reveal that Zn2+-mediated initiation of 2-AG synthesis is absent in mice lacking the mZnR. We reveal a previously unknown action of synaptic Zn2+: synaptic Zn2+ inhibits glutamate release by promoting 2-AG synthesis.

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