Single nucleotide variants in the SCN1A gene and their relation to the development of type 3 familial hemiplegic migraine

Headache Medicine Pub Date : 2022-10-27 DOI:10.48208/headachemed.2022.supplement.17

Bárbara Prevital dos Santos, Bruna Maschi, G. Campos, Giovanna Correa Rossi, Giulia Eloah de Pádua Ribeiro, Glória Maria Doroso Volpato, Júlia Vitturi, Lara Schiavão de Carvalho, Larissa Carolina Rosin, Leticia A. Coelho, Rubem Soter Neto, V. A. Bello, Aline Vitali da Silva, Regina Célia Poli Frederico

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Abstract

IntroductionMigraine is a complex brain disorder that is influenced by different pathophysiological aspects such as inflammation, structural changes, and dysfunctions in multisensory processing. Recent studies have showed that possible mutations in genes that interfere with the excitability of ion channels linked to nociception are one of the key mechanisms for the development of a migraine. In this sense, it is known that familial hemiplegic migraine type 3 (FHM3) undergoes specific missense mutational influences on the SCN1A gene that encodes the α1 subunit of NAV1.1, a voltage-gated sodium channel present in the brain that demonstrates that the deregulation of the excitatory- inhibitory balance of these channels in specific circuits may come to characterize the pathogenic mechanism of FHM3. ObjectivesInvestigate the relation of single nucleotide variants (SNVs) on the SCN1A gene encoder of the a1 subunit of the NAV1.1 channel with the development of FHM3. MethodsNarrative review performed by active search in the digital databases Virtual Health Library (BVS), PubMed, SciElo and Google Scholar. DevelopmentMigraine pathophysiology involves the distribution of ions between intracellular and extracellular compartments, which shows the role of the ion channels in the disease. In this regard, there is an activation of the trigeminal vascular meningeal system by the NaV1.1 channels, which are expressed in Aδ fibers. Therefore, it is believed that mutations on genes that encodes the ion channels act in the development of migraine, mainly by the meninges, as they are densely innervated by trigeminal nerve endings. (To see the complete abstract, please, check out the PDF).

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SCN1A基因的单核苷酸变异及其与3型家族性偏瘫性偏头痛发展的关系

偏头痛是一种复杂的脑部疾病，受到不同病理生理方面的影响，如炎症、结构变化和多感觉处理功能障碍。最近的研究表明，干扰与痛觉相关的离子通道兴奋性的基因突变可能是偏头痛发展的关键机制之一。从这个意义上说，已知家族性偏瘫型偏头痛(FHM3)对编码NAV1.1 α1亚基的SCN1A基因有特异性错义突变影响，NAV1.1是一种存在于大脑中的电压门控钠通道，这表明在特定回路中这些通道的兴奋-抑制平衡的失调可能是FHM3致病机制的特征。目的探讨NAV1.1通道a1亚基SCN1A基因编码器单核苷酸变异(snv)与FHM3发生的关系。方法在数字数据库Virtual Health Library (BVS)、PubMed、SciElo和Google Scholar中进行主动检索。偏头痛的病理生理涉及到细胞内和细胞外区室之间离子的分布，这显示了离子通道在疾病中的作用。在这方面，三叉神经血管脑膜系统通过在Aδ纤维中表达的NaV1.1通道被激活。因此，人们认为，编码离子通道的基因突变在偏头痛的发展中起作用，主要是通过脑膜，因为它们被三叉神经末梢密集支配。(要查看完整的摘要，请查看PDF)。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Headache Medicine

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