Frontiers in Molecular Neuroscience (Jun 2024)

Potential of ferroptosis and ferritinophagy in migraine pathogenesis

  • Michal Fila,
  • Lukasz Przyslo,
  • Marcin Derwich,
  • Jolanta Luniewska-Bury,
  • Elzbieta Pawlowska,
  • Janusz Blasiak

DOI
https://doi.org/10.3389/fnmol.2024.1427815
Journal volume & issue
Vol. 17

Abstract

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ObjectiveTo assess the potential of ferroptosis and ferritinophagy in migraine pathogenesis.BackgroundFerroptosis and ferritinophagy are related to increased cellular iron concentration and have been associated with the pathogenesis of several neurological disorders, but their potential in migraine pathogenesis has not been explored. Increased iron deposits in some deep brain areas, mainly periaqueductal gray (PAG), are reported in migraine and they have been associated with the disease severity and chronification as well as poor response to antimigraine drugs.ResultsIron deposits may interfere with antinociceptive signaling in the neuronal network in the brain areas affected by migraine, but their mechanistic role is unclear. Independently of the location, increased iron concentration may be related to ferroptosis and ferritinophagy in the cell. Therefore, both phenomena may be related to increased iron deposits in migraine. It is unclear whether these deposits are the reason, consequence, or just a correlate of migraine. Still, due to migraine-related elevated levels of iron, which is a prerequisite of ferroptosis and ferritinophagy, the potential of both phenomena in migraine should be explored. If the iron deposits matter in migraine pathogenesis, they should be mechanically linked with the clinical picture of the disease. As iron is an exogenous essential trace element, it is provided to the human body solely with diet or supplements. Therefore, exploring the role of iron in migraine pathogenesis may help to determine the potential role of iron-rich/poor dietary products as migraine triggers or relievers.ConclusionFerroptosis and ferritinophagy may be related to migraine pathogenesis through iron deposits in the deep areas of the brain.

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