PLoS ONE (Jan 2019)

Targeting ferroptosis: A novel therapeutic strategy for the treatment of mitochondrial disease-related epilepsy.

  • Amanda H Kahn-Kirby,
  • Akiko Amagata,
  • Celine I Maeder,
  • Janet J Mei,
  • Steve Sideris,
  • Yuko Kosaka,
  • Andrew Hinman,
  • Stephanie A Malone,
  • Joel J Bruegger,
  • Leslie Wang,
  • Virna Kim,
  • William D Shrader,
  • Kevin G Hoff,
  • Joey C Latham,
  • Euan A Ashley,
  • Matthew T Wheeler,
  • Enrico Bertini,
  • Rosalba Carrozzo,
  • Diego Martinelli,
  • Carlo Dionisi-Vici,
  • Kimberly A Chapman,
  • Gregory M Enns,
  • William Gahl,
  • Lynne Wolfe,
  • Russell P Saneto,
  • Simon C Johnson,
  • Jeffrey K Trimmer,
  • Matthew B Klein,
  • Charles R Holst

DOI
https://doi.org/10.1371/journal.pone.0214250
Journal volume & issue
Vol. 14, no. 3
p. e0214250

Abstract

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BACKGROUND:Mitochondrial disease is a family of genetic disorders characterized by defects in the generation and regulation of energy. Epilepsy is a common symptom of mitochondrial disease, and in the vast majority of cases, refractory to commonly used antiepileptic drugs. Ferroptosis is a recently-described form of iron- and lipid-dependent regulated cell death associated with glutathione depletion and production of lipid peroxides by lipoxygenase enzymes. Activation of the ferroptosis pathway has been implicated in a growing number of disorders, including epilepsy. Given that ferroptosis is regulated by balancing the activities of glutathione peroxidase-4 (GPX4) and 15-lipoxygenase (15-LO), targeting these enzymes may provide a rational therapeutic strategy to modulate seizure. The clinical-stage therapeutic vatiquinone (EPI-743, α-tocotrienol quinone) was reported to reduce seizure frequency and associated morbidity in children with the mitochondrial disorder pontocerebellar hypoplasia type 6. We sought to elucidate the molecular mechanism of EPI-743 and explore the potential of targeting 15-LO to treat additional mitochondrial disease-associated epilepsies. METHODS:Primary fibroblasts and B-lymphocytes derived from patients with mitochondrial disease-associated epilepsy were cultured under standardized conditions. Ferroptosis was induced by treatment with the irreversible GPX4 inhibitor RSL3 or a combination of pharmacological glutathione depletion and excess iron. EPI-743 was co-administered and endpoints, including cell viability and 15-LO-dependent lipid oxidation, were measured. RESULTS:EPI-743 potently prevented ferroptosis in patient cells representing five distinct pediatric disease syndromes with associated epilepsy. Cytoprotection was preceded by a dose-dependent decrease in general lipid oxidation and the specific 15-LO product 15-hydroxyeicosatetraenoic acid (15-HETE). CONCLUSIONS:These findings support the continued clinical evaluation of EPI-743 as a therapeutic agent for PCH6 and other mitochondrial diseases with associated epilepsy.