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Epilepsy-Related Voltage-Gated Sodium Channelopathies: A Review.


ABSTRACT: Epilepsy is a disease characterized by abnormal brain activity and a predisposition to generate epileptic seizures, leading to neurobiological, cognitive, psychological, social, and economic impacts for the patient. There are several known causes for epilepsy; one of them is the malfunction of ion channels, resulting from mutations. Voltage-gated sodium channels (NaV) play an essential role in the generation and propagation of action potential, and malfunction caused by mutations can induce irregular neuronal activity. That said, several genetic variations in NaV channels have been described and associated with epilepsy. These mutations can affect channel kinetics, modifying channel activation, inactivation, recovery from inactivation, and/or the current window. Among the NaV subtypes related to epilepsy, NaV1.1 is doubtless the most relevant, with more than 1500 mutations described. Truncation and missense mutations are the most observed alterations. In addition, several studies have already related mutated NaV channels with the electrophysiological functioning of the channel, aiming to correlate with the epilepsy phenotype. The present review provides an overview of studies on epilepsy-associated mutated human NaV1.1, NaV1.2, NaV1.3, NaV1.6, and NaV1.7.

SUBMITTER: Menezes LFS 

PROVIDER: S-EPMC7461817 | biostudies-literature | 2020

REPOSITORIES: biostudies-literature

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Epilepsy-Related Voltage-Gated Sodium Channelopathies: A Review.

Menezes Luis Felipe Santos LFS   Sabiá Júnior Elias Ferreira EF   Tibery Diogo Vieira DV   Carneiro Lilian Dos Anjos LDA   Schwartz Elisabeth Ferroni EF  

Frontiers in pharmacology 20200818


Epilepsy is a disease characterized by abnormal brain activity and a predisposition to generate epileptic seizures, leading to neurobiological, cognitive, psychological, social, and economic impacts for the patient. There are several known causes for epilepsy; one of them is the malfunction of ion channels, resulting from mutations. Voltage-gated sodium channels (NaV) play an essential role in the generation and propagation of action potential, and malfunction caused by mutations can induce irre  ...[more]

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