Scientific Reports (Jul 2023)

Multi-omic analyses of triptan-treated migraine attacks gives insight into molecular mechanisms

  • Lisette J. A. Kogelman,
  • Katrine Falkenberg,
  • Filip Ottosson,
  • Madeleine Ernst,
  • Francesco Russo,
  • Valdemar Stentoft-Hansen,
  • Samuel Demharter,
  • Peer Tfelt-Hansen,
  • Arieh S. Cohen,
  • Jes Olesen,
  • Thomas Folkmann Hansen

DOI
https://doi.org/10.1038/s41598-023-38904-1
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 8

Abstract

Read online

Abstract Migraine is a common, polygenic disorder that is characterized by moderate to severe headache attacks. Migraine attacks are commonly treated with triptans, i.e. serotonin receptor agonists. However, triptans are effective in ~ 60% of the population, and the mechanisms of triptans are debated. Here, we aim to expose the mechanisms of triptan using metabolomics and transcriptomics in spontaneous migraine attacks. We collected temporal multi-omics profiles on 24 migraine patients, using samples collected at a migraine attack, 2 h after treatment with a triptan, when headache-free, and after a cold-pressor test. Differential metabolomic analysis was performed to find metabolites associated with treatment. Their effect was further investigated using correlation analysis and a machine learning approach. We found three differential metabolites: cortisol, sumatriptan and glutamine. The change in sumatriptan levels correlated with a change in GNAI1 and VIPR2 gene expression, both known to regulate cAMP levels. Furthermore, we found fatty acid oxidation to be affected, a mechanism known to be involved in migraine but not previously found in relation to triptans. In conclusion, using an integrative approach we find evidence for a role of glutamine, cAMP regulation, and fatty acid oxidation in the molecular mechanisms of migraine and/or the effect of triptans.