New avenues in molecular genetics for the diagnosis and application of therapeutics to the epilepsies

Genetic epidemiology studies have shown that most epilepsies involve some genetic cause. In addition, twin studies have helped strengthen the hypothesis that in most patients with epilepsy, a complex inheritance is involved. More recently, with the development of high-density single-nucleotide polym...

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Veröffentlicht in:Epilepsy & behavior 2021-08, Vol.121, p.106428-106428, Article 106428
Hauptverfasser: Magalhães, Pedro H.M., Moraes, Helena T., Athie, Maria C.P., Secolin, Rodrigo, Lopes-Cendes, Iscia
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Sprache:eng
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Zusammenfassung:Genetic epidemiology studies have shown that most epilepsies involve some genetic cause. In addition, twin studies have helped strengthen the hypothesis that in most patients with epilepsy, a complex inheritance is involved. More recently, with the development of high-density single-nucleotide polymorphism (SNP) microarrays and next-generation sequencing (NGS) technologies, the discovery of genes related to the epilepsies has accelerated tremendously. Especially, the use of whole exome sequencing (WES) has had a considerable impact on the identification of rare genetic variants with large effect sizes, including inherited or de novo mutations in severe forms of childhood epilepsies. The identification of pathogenic variants in patients with these childhood epilepsies provides many benefits for patients and families, such as the confirmation of the genetic nature of the diseases. This process will allow for better genetic counseling, more accurate therapy decisions, and a significant positive emotional impact. However, to study the genetic component of the more common forms of epilepsy, the use of high-density SNP arrays in genome-wide association studies (GWAS) seems to be the strategy of choice. As such, researchers can identify loci containing genetic variants associated with the common forms of epilepsy. The knowledge generated over the past two decades about the effects of the mutations that cause the monogenic epilepsy is tremendous; however, the scientific community is just starting to apply this information in order to generate better target treatments. •A complex genetic inheritance is involved most patients with epilepsy.•New technologies had a considerable impact in the identification of rare genetic variants leading to monogenic epilepsies.•Genome-wide association studies are used to identify loci containing genetic variants associated with the common epilepsies.•The scientific community is just starting to apply genetic information to help optimize treatment for patients with epilepsy.
ISSN:1525-5050
1525-5069
DOI:10.1016/j.yebeh.2019.07.029