The title of the talk is “Understanding Population-based Migraine Through Genome-wide Genetics” by Daniel Chasman from Brigham and Women’s Hospital.
Neurological disorders is becoming a global burden and ranks 2nd for number of years lost to disability. History of diabetes and hypertension, postmenopausal hormone use, physical activities, alcohol consumption, and smoking status are more frequent in people with migraines. Aging is a very important factor in migraine development. In the WGHS data, 3 SNPs investigated the relationship with migraine. Among them, PRDM16 rs22651899 increases the risk and TRPM8 rs10166942 decrease the risk of migraine, while LRP1 rs11172113 was not associated with migraine. After the first implementation of genetic analysis in 2009 with 3 SNPs, the number of SNPs that are included in the analysis increased gradually through each study, and reach out to 44 genome-wide significant loci in a large population study called IHGC 2016 with 59,042 participants. The genetic risk score (GRS) has been calculated to investigate the shared genetic contribution of ischemic stroke and migraine. In observational studies, migraine with aura is a risk factor for ischemic stroke. The causality of the relationship between migraines and coronary artery disease (CAD), MI, angina and atrial fibrillation have been assessed using Mendelian Randomization (MR). The confirmation was drawn from CAD, MI, angina. Some loci with likely vascular function show concordant susceptibility between migraine, dissection but inverse susceptibility with stroke/ CAD. The higher degree of heterogeneity in migraine genetics makes a more complex underlying biology investigation of this form of the disease. In conclusion, there is a long road ahead in Science to determine the matrix of migraine, SNPs, and other diseases.