Inserm, INS, Institut de Neurosciences des Systèmes, Aix Marseille Univ, Marseille, France.
Epilepsia. 2021 Feb;62 Suppl 1:S49-S68. doi: 10.1111/epi.16716. Epub 2020 Oct 16.
The occurrence of seizures at specific times of the day has been consistently observed for centuries in individuals with epilepsy. Electrophysiological recordings provide evidence that seizures have a higher probability of occurring at a given time during the night and day cycle in individuals with epilepsy here referred to as the seizure rush hour. Which mechanisms underlie such circadian rhythmicity of seizures? Why don't they occur every day at the same time? Which mechanisms may underlie their occurrence outside the rush hour? In this commentary, I present a hypothesis: MORE - Molecular Oscillations and Rhythmicity of Epilepsy, a conceptual framework to study and understand the mechanisms underlying the circadian rhythmicity of seizures and their probabilistic nature. The core of the hypothesis is the existence of ~24-hour oscillations of gene and protein expression throughout the body in different cells and organs. The orchestrated molecular oscillations control the rhythmicity of numerous body events, such as feeding and sleep. The concept developed here is that molecular oscillations may favor seizure genesis at preferred times, generating the condition for a seizure rush hour. However, the condition is not sufficient, as other factors are necessary for a seizure to occur. Studying these molecular oscillations may help us understand seizure genesis mechanisms and find new therapeutic targets and predictive biomarkers. The MORE hypothesis can be generalized to comorbidities and the slower multidien (week/month period) rhythmicity of seizures, a phenomenon addressed in another article in this issue of Epilepsia.
癫痫患者在一天中的特定时间发作的现象已经被观察了几个世纪。电生理记录提供的证据表明,在癫痫患者中,夜间和白天周期中特定时间发生癫痫的可能性更高,这里将其称为癫痫发作高峰时间。这种癫痫发作的昼夜节律性的潜在机制是什么?为什么它们不会每天在同一时间发生?其在高峰时间之外发生的潜在机制是什么?在这篇评论中,我提出了一个假说:MORE-癫痫的分子振荡和节律性,这是一个用于研究和理解癫痫发作昼夜节律性及其概率性质的潜在机制的概念框架。该假说的核心是在不同细胞和器官中,全身存在约 24 小时的基因和蛋白质表达的振荡。协调的分子振荡控制着许多身体事件的节律性,如进食和睡眠。这里提出的概念是,分子振荡可能有利于在首选时间发生癫痫发作,从而产生癫痫发作高峰时间的条件。然而,这种情况并不充分,因为发生癫痫还需要其他因素。研究这些分子振荡可能有助于我们了解癫痫发作的发生机制,并找到新的治疗靶点和预测生物标志物。MORE 假说可以推广到合并症以及癫痫发作较慢的多维节律性(一周/一个月周期),这是本期 Epilepsia 中另一篇文章所讨论的现象。
