The largest genetic study of migraine to date reveals new genetic risk factors.
In the largest genome study of migraine yet, researchers have more than tripled the number of known genetic risk factors for migraine. Among the identified 123 genetic regions are two that contain target genes of recently developed migraine-specific drugs.
The study involved leading migraine research groups in Europe, Australia and the United States, including scientists at the Institute for Molecular Medicine Finland, working together to pool genetic data from more than 873,000 study participants, 102,000 of whom had migraine.
Three risk variants
The new findings, published on February 3, 2022 in the journal Nature Genetics, also uncovered more of the genetic architecture of migraine subtypes than was previously known.
Previous research has shown that genetic factors contribute significantly to the migraine risk. However, it has long been debated whether the two main migraine types – migraine with aura and migraine without aura – share similar genetic background. To gain more insight into the specific risk genes, researchers from the International Headache Genetics Consortium assembled a large genetic dataset to conduct a genome-wide association study (GWAS), looking for genetic variants that were more common in those who had migraine in general, or one of the two main migraine types.
The results demonstrated that migraine subtypes have both shared risk factors and risk factors that appear specific to one subtype. The analyses highlighted three risk variants that appear specific to migraine with aura and two that appear specific to migraine without aura.
“In addition to implicating tens of new regions of the genome for more targeted investigation, our study provides the first meaningful opportunity to evaluate shared and distinct genetic components in the two main migraine subtypes,” says the first author of the study, Heidi Hautakangas from the Institute for Molecular Medicine Finland, University of Helsinki.
Furthermore, the results supported the concept that migraine is brought about by both neuronal and vascular genetic factors, strengthening the view that migraine truly is a neurovascular disorder.
Potential drug targets
A particularly interesting finding in the study was the identification of genomic risk regions containing genes that encode targets for recently developed migraine-specific therapeutics.
One of the newly identified regions contains genes (CALCA/CALCB) encoding calcitonin gene-related peptide, a molecule involved in migraine attacks and blocked by the recently introduced CGRP inhibitor migraine medications. Another risk region covers the HTR1F gene encoding serotonin 1F receptor, also a target for new migraine-specific medications.
“These two new associations near genes that are already targeted by effective migraine drugs suggest that there could be other potential drug targets among the new genomic regions, and provide a clear rationale for future genetic studies with even larger sample sizes,” says Dr. Matti Pirinen, a group leader from the Institute for Molecular Medicine Finland, University of Helsinki, who led the study.
The study was a joint effort between research groups from Australia, Denmark, Estonia, Finland, Germany, Iceland, Netherlands, Norway, Sweden, UK and USA.