Molecular mechanisms underlying the ferroptosis-induced epileptiform activity in mouse cortical slices
Sara Petrillo, Federica Loia, Michela Giustizieri, Caterina Torda, Sara Cairoli, Bianca Goffredo, Marina Trivisano, Luca de Palma, Federico Vigevano, Nicola Specchio, Enrico Cherubini, Fiorella Piemonte

TL;DR
This study explores how ferroptosis, a type of cell death, causes epileptic activity in mouse brain slices and identifies potential therapeutic targets.
Contribution
The study reveals a direct link between lipid peroxidation and Xc− activity in ferroptosis-induced epilepsy.
Findings
Ferroptosis induction by RSL-3 reduces GPX4/GSH and increases 15-LOX in cortical neurons.
Xc− antiporter is upregulated by RSL-3 and 4-HNE, which can generate epileptiform bursts.
Xc− may be a promising target for treating drug-resistant epilepsy.
Abstract
Ferroptosis, a newly defined iron-dependent programmed cell death, characterized by excessive accumulation of lipid peroxides and reactive oxygen species, is involved in epilepsy, particularly in those forms resistant to drugs. In a previous study, we have demonstrated that exposure of mouse cortical slices to the ferroptosis inducer RSL-3, induces interictal epileptiform discharges. To investigate the mechanisms underlying ferroptosis-induced epileptic activity in RSL-3-treated cortical slices, we analysed the expression of the main contributors to ferroptosis susceptibility in cells. The expression of proteins involved in RSL-3 induced ferroptosis pathways were analysed on mouse cortical slices by Western blot and qRT-PCR. The epileptogenic response was investigated by electrophysiological patch clamp recordings, in current clamp mode, from layer 2/3 mouse cortical slices. In…
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Taxonomy
TopicsFerroptosis and cancer prognosis · Trace Elements in Health · Selenium in Biological Systems
