期刊
INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES
卷 24, 期 4, 页码 -出版社
MDPI
DOI: 10.3390/ijms24044223
关键词
epilepsy; epileptic genes; circadian clock; chronotherapy; animal models
Epilepsy is a neurological disorder characterized by recurrent neuronal activities and seizures, with daily variations in seizure occurrence. Circadian misalignment and clock gene variants contribute to epileptic pathogenesis. This review discusses epilepsy-related genes, the circadian rhythmicity of epilepsies, and the mutual effects between epilepsy and sleep. It also highlights the advantages and challenges of animal models in epileptic studies. The review concludes with a recommendation for chronomodulated strategy-based chronotherapy for rhythmic epilepsies to develop time-specific antiepileptic drug dosing schedules.
Epilepsy is a neurological disorder characterized by hypersynchronous recurrent neuronal activities and seizures, as well as loss of muscular control and sometimes awareness. Clinically, seizures have been reported to display daily variations. Conversely, circadian misalignment and circadian clock gene variants contribute to epileptic pathogenesis. Elucidation of the genetic bases of epilepsy is of great importance because the genetic variability of the patients affects the efficacies of antiepileptic drugs (AEDs). For this narrative review, we compiled 661 epilepsy-related genes from the PHGKB and OMIM databases and classified them into 3 groups: driver genes, passenger genes, and undetermined genes. We discuss the potential roles of some epilepsy driver genes based on GO and KEGG analyses, the circadian rhythmicity of human and animal epilepsies, and the mutual effects between epilepsy and sleep. We review the advantages and challenges of rodents and zebrafish as animal models for epileptic studies. Finally, we posit chronomodulated strategy-based chronotherapy for rhythmic epilepsies, integrating several lines of investigation for unraveling circadian mechanisms underpinning epileptogenesis, chronopharmacokinetic and chronopharmacodynamic examinations of AEDs, as well as mathematical/computational modeling to help develop time-of-day-specific AED dosing schedules for rhythmic epilepsy patients.
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