S. N. Samovich scite author profile

Ferroptosis is associated with lipid hydroperoxides generated by the oxidation of polyunsaturated acyl chains. Lipid hydroperoxides are reduced by glutathione peroxidase 4 (GPX4) and GPX4 inhibitors induce ferroptosis. However, the therapeutic potential of triggering ferroptosis in cancer cells with polyunsaturated fatty acids is unknown. Here, we identify conjugated linoleates including α-eleostearic acid (αESA) as ferroptosis inducers. αESA does not alter GPX4 activity but is incorporated into cellular lipids and promotes lipid peroxidation and cell death in diverse cancer cell types. αESA-triggered death is mediated by acyl-CoA synthetase long-chain isoform 1, which promotes αESA incorporation into neutral lipids including triacylglycerols. Interfering with triacylglycerol biosynthesis suppresses ferroptosis triggered by αESA but not by GPX4 inhibition. Oral administration of tung oil, naturally rich in αESA, to mice limits tumor growth and metastasis with transcriptional changes consistent with ferroptosis. Overall, these findings illuminate a potential approach to ferroptosis, complementary to GPX4 inhibition.

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Keratinocyte death by ferroptosis initiates skin inflammation after UVB exposure

Vats¹,

Kruglov²,

Mizes³

et al. 2021

Redox Biology

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The ultraviolet B radiation (UVB) causes skin inflammation, which contributes to the causality and the exacerbation of a number of cutaneous diseases. However, the mechanism of UVB-driven inflammation in the skin remains poorly understood. We show that ferroptosis, a non-apoptotic programmed cell death pathway that is promoted by an excessive phospholipid peroxidation, is activated in the epidermal keratinocytes after their exposure to UVB. The susceptibility of the keratinocytes to UVB-induced ferroptosis depends on the extent of pro-ferroptosis death signal generation and the dysregulation of the glutathione system. Inhibition of ferroptosis prevents the release of HMGB1 from the human epidermal keratinocytes, and blocks necroinflammation in the UVB-irradiated mouse skin. We show that while apoptosis and pyroptosis are also detectable in the keratinocytes after UVB exposure, ferroptosis plays a significant role in initiating UVB-induced inflammation in the skin. Our results have important implications for the prevention and the treatment of a broad range of skin diseases which are fostered by UVB-induced inflammation.

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15LO1 dictates glutathione redox changes in asthmatic airway epithelium to worsen type 2 inflammation

Nagasaki¹,

Schuyler²,

Zhao³

et al. 2022

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Altered redox biology challenges all cells, with compensatory responses often determining a cell’s fate. When 15 lipoxygenase 1 (15LO1), a lipid-peroxidizing enzyme abundant in asthmatic human airway epithelial cells (HAECs), binds phosphatidylethanolamine-binding protein 1 (PEBP1), hydroperoxy-phospholipids, which drive ferroptotic cell death, are generated. Peroxidases, including glutathione peroxidase 4 (GPX4), metabolize hydroperoxy-phospholipids to hydroxy derivatives to prevent ferroptotic death, but consume reduced glutathione (GSH). The cystine transporter SLC7A11 critically restores/maintains intracellular GSH. We hypothesized that high 15LO1, PEBP1, and GPX4 activity drives abnormal asthmatic redox biology, evidenced by lower bronchoalveolar lavage (BAL) fluid and intraepithelial cell GSH:oxidized GSH (GSSG) ratios, to enhance type 2 (T2) inflammatory responses. GSH, GSSG (enzymatic assays), 15LO1, GPX4, SLC7A11, and T2 biomarkers (Western blot and RNA-Seq) were measured in asthmatic and healthy control (HC) cells and fluids, with siRNA knockdown as appropriate. GSSG was higher and GSH:GSSG lower in asthmatic compared with HC BAL fluid, while intracellular GSH was lower in asthma. In vitro, a T2 cytokine (IL-13) induced 15LO1 generation of hydroperoxy-phospholipids, which lowered intracellular GSH and increased extracellular GSSG. Lowering GSH further by inhibiting SLC7A11 enhanced T2 inflammatory protein expression and ferroptosis. Ex vivo, redox imbalances corresponded to 15LO1 and SLC7A11 expression, T2 biomarkers, and worsened clinical outcomes. Thus, 15LO1 pathway–induced redox biology perturbations worsen T2 inflammation and asthma control, supporting 15LO1 as a therapeutic target.

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Syrian hamsters as a model of lung injury with SARS-CoV-2 infection: Pathologic, physiologic, and detailed molecular profiling

Bednash¹,

Kagan²,

Englert³

et al. 2022

Translational Research

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P. aeruginosa augments irradiation injury via 15-lipoxygenase–catalyzed generation of 15-HpETE-PE and induction of theft-ferroptosis

Dar¹,

Epperly²,

Tyurin³

et al. 2022

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Total body irradiation (TBI) targets sensitive bone marrow hematopoietic cells and gut epithelial cells causing their death and TBI induces the state of immunodeficiency combined with intestinal dysbiosis and non-productive immune responses. We found enhanced Pseudomonas aeruginosa (PAO1) colonization of the gut leading to the host cell death and strikingly decreased survival of irradiated mice. PAO1-driven pathogenic mechanism includes theft-ferroptosis realized via: i) curbing host anti-ferroptotic system GSH/GPx4 and ii) employing bacterial 15-lipoxygenase (pLoxA) to generate pro-ferroptotic signal -15-hydroperoxy-arachidonoyl-PE (15-HpETE-PE) -in the intestines of irradiated/infected mice. Global redox phospholipidomics of the ileum revealed that lyso-phospholipids and oxidized phospholipids (particularly oxidized phosphatidylethanolamine (PEox) represented the major factors which contributed to the total body irradiation (TBI)+PAO1 induced pathogenic changes. A lipoxygenase inhibitor, baicalein, significantly attenuated animal lethality, PAO1 colonization, as well as intestinal epithelial cell death and generation of ferroptotic PEox signals. Opportunistic PAO1 mechanisms included stimulation of the anti-inflammatory lipoxin A4 (LXA4) production and suppression of the proinflammatory hepoxilin A3 (HxA3) and leukotriene B4 (LTB4). Unearthing complex PAO1 pathogenic/virulence mechanisms including effects on the host anti-/pro-inflammatory responses, lipid metabolism and ferroptotic cell death points to new therapeutic and radiomitigative targets.

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S. N. Samovich

Ferroptotic cell death triggered by conjugated linolenic acids is mediated by ACSL1

Keratinocyte death by ferroptosis initiates skin inflammation after UVB exposure

15LO1 dictates glutathione redox changes in asthmatic airway epithelium to worsen type 2 inflammation

Syrian hamsters as a model of lung injury with SARS-CoV-2 infection: Pathologic, physiologic, and detailed molecular profiling

P. aeruginosa augments irradiation injury via 15-lipoxygenase–catalyzed generation of 15-HpETE-PE and induction of theft-ferroptosis

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