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Seizure-mediated iron accumulation and dysregulated iron metabolism after status epilepticus and in temporal lobe epilepsy

癫痫 癫痫持续状态 海马结构 铁蛋白 海马硬化 癫痫发生 海马体 颞叶 发作性 病理 医学 神经科学 内分泌学 生物 化学
作者
Till S. Zimmer,Bastian David,Diede W. M. Broekaart,Martin Schidlowski,Gabriele Ruffolo,A. Korotkov,Nicole N. van der Wel,Peter C. van Rijen,Angelika Mühlebner,Wim Van Hecke,Johannes C. Baayen,Sander Idema,Liesbeth François,Jonathan van Eyll,Stefanie Dedeurwaerdere,Helmut W. Kessels,Rainer Surges,Theodor Rüber,Jan A. Gorter,James D. Mills
出处
期刊:Acta Neuropathologica [Springer Science+Business Media]
卷期号:142 (4): 729-759 被引量:58
标识
DOI:10.1007/s00401-021-02348-6
摘要

Abstract Neuronal dysfunction due to iron accumulation in conjunction with reactive oxygen species (ROS) could represent an important, yet underappreciated, component of the epileptogenic process. However, to date, alterations in iron metabolism in the epileptogenic brain have not been addressed in detail. Iron-related neuropathology and antioxidant metabolic processes were investigated in resected brain tissue from patients with temporal lobe epilepsy and hippocampal sclerosis (TLE-HS), post-mortem brain tissue from patients who died after status epilepticus (SE) as well as brain tissue from the electrically induced SE rat model of TLE. Magnetic susceptibility of the presumed seizure-onset zone from three patients with focal epilepsy was compared during and after seizure activity. Finally, the cellular effects of iron overload were studied in vitro using an acute mouse hippocampal slice preparation and cultured human fetal astrocytes. While iron-accumulating neurons had a pyknotic morphology, astrocytes appeared to acquire iron-sequestrating capacity as indicated by prominent ferritin expression and iron retention in the hippocampus of patients with SE or TLE. Interictal to postictal comparison revealed increased magnetic susceptibility in the seizure-onset zone of epilepsy patients. Post-SE rats had consistently higher hippocampal iron levels during the acute and chronic phase (when spontaneous recurrent seizures are evident). In vitro, in acute slices that were exposed to iron, neurons readily took up iron, which was exacerbated by induced epileptiform activity. Human astrocyte cultures challenged with iron and ROS increased their antioxidant and iron-binding capacity, but simultaneously developed a pro-inflammatory phenotype upon chronic exposure. These data suggest that seizure-mediated, chronic neuronal iron uptake might play a role in neuronal dysfunction/loss in TLE-HS. On the other hand, astrocytes sequester iron, specifically in chronic epilepsy. This function might transform astrocytes into a highly resistant, pro-inflammatory phenotype potentially contributing to pro-epileptogenic inflammatory processes.

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