Lucio Zennaro scite author profile

Ferroptosis is a form of cell death primed by iron and lipid hydroperoxides and prevented by GPx4. Ferrostatin-1 (fer-1) inhibits ferroptosis much more efficiently than phenolic antioxidants. Previous studies on the antioxidant efficiency of fer-1 adopted kinetic tests where a diazo compound generates the hydroperoxyl radical scavenged by the antioxidant. However, this reaction, accounting for a chain breaking effect, is only minimally useful for the description of the inhibition of ferrous iron and lipid hydroperoxide dependent peroxidation. Scavenging lipid hydroperoxyl radicals, indeed, generates lipid hydroperoxides from which ferrous iron initiates a new peroxidative chain reaction. We show that when fer-1 inhibits peroxidation, initiated by iron and traces of lipid hydroperoxides in liposomes, the pattern of oxidized species produced from traces of pre-existing hydroperoxides is practically identical to that observed following exhaustive peroxidation in the absence of the antioxidant. This supported the notion that the anti-ferroptotic activity of fer-1 is actually due to the scavenging of initiating alkoxyl radicals produced, together with other rearrangement products, by ferrous iron from lipid hydroperoxides. Notably, fer-1 is not consumed while inhibiting iron dependent lipid peroxidation. The emerging concept is that it is ferrous iron itself that reduces fer-1 radical. This was supported by electroanalytical evidence that fer-1 forms a complex with iron and further confirmed in cells by fluorescence of calcein, indicating a decrease of labile iron in the presence of fer-1. The notion of such as pseudo-catalytic cycle of the ferrostatin-iron complex was also investigated by means of quantum mechanics calculations, which confirmed the reduction of an alkoxyl radical model by fer-1 and the reduction of fer-1 radical by ferrous iron. In summary, GPx4 and fer-1 in the presence of ferrous iron, produces, by distinct mechanism, the most relevant anti-ferroptotic effect, i.e the disappearance of initiating lipid hydroperoxides.

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Glutathione peroxidase 4-catalyzed reduction of lipid hydroperoxides in membranes: The polar head of membrane phospholipids binds the enzyme and addresses the fatty acid hydroperoxide group toward the redox center

Cozza

Rossetto

Bosello-Travain

et al. 2017

Free Radical Biology and Medicine

118

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A high sensitivity amperometric biosensor using a monomolecular layer of laccase as biorecognition element

Vianello

Cambria

Ragusa

et al. 2004

Biosensors and Bioelectronics

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Ascorbate Oxidation Catalyzed by Bis(histidine)copper(II)

et al. 1996

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The kinetics of ascorbic acid oxidation by molecular oxygen, catalyzed by bis(histidine)copper(II) (CuL2 2+), was followed in 0.1 M phosphate buffer at pH 7.0. Saturation of the oxidation rate was observed at increasing O2, ascorbate and CuL2 2+ concentrations. The oxidation state of the copper ion during the catalysis and the concentration of the ascorbyl radical were followed by ESR and/or by optical spectroscopy. No significant reduction of Cu(II) was observed under vacuum or in the presence of oxygen at ascorbate concentrations <20 mM. Evidence for the binding of ascorbate to CuL2 2+ was found by ESR, and a stability constant of 20 M-1 was estimated. We suggested a mechanism which is consistent with our experimental findings and explains some of the contradictory data reported in the past by various authors. The saturation of the reaction rate on increasing [CuL2 2+] is explained in terms of its catalytic effect on ascorbate oxidation and the superoxide dismutase-like activity of this complex. The experimental concentration of the ascorbyl radical, which is an intermediate product, was in good agreement with that calculated on the basis of the proposed mechanism.

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A method to evaluate capacity and efficiency of water soluble antioxidants as peroxyl radical scavengers

Zennaro

Rossetto

Vanzani

et al. 2007

Archives of Biochemistry and Biophysics

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Lucio Zennaro

Insight into the mechanism of ferroptosis inhibition by ferrostatin-1

Glutathione peroxidase 4-catalyzed reduction of lipid hydroperoxides in membranes: The polar head of membrane phospholipids binds the enzyme and addresses the fatty acid hydroperoxide group toward the redox center

A high sensitivity amperometric biosensor using a monomolecular layer of laccase as biorecognition element

Ascorbate Oxidation Catalyzed by Bis(histidine)copper(II)

A method to evaluate capacity and efficiency of water soluble antioxidants as peroxyl radical scavengers

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