Oxidative stress and inflammation in a spectrum of epileptogenic cortical malformations: molecular insights into their interdependence

Publication date

2019-05

Authors

Arena, Andrea
Zimmer, Till S
van Scheppingen, Jackelien
Korotkov, Anatoly
Anink, Jasper J
Mühlebner, AngelikaORCID 0000-0001-9102-7353
Jansen, Floor E.ISNI 0000000387760135
Van Hecke, Wim
Spliet, Wim G MISNI 0000000395008605
van Rijen, Peter C.ISNI 0000000394826032

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Supervisors

Document Type

Article

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taverne

Abstract

Oxidative stress (OS) occurs in brains of patients with epilepsy and coincides with brain inflammation, and both phenomena contribute to seizure generation in animal models. We investigated whether expression of OS and brain inflammation markers co-occurred also in resected brain tissue of patients with epileptogenic cortical malformations: hemimegalencephaly (HME), focal cortical dysplasia (FCD) and cortical tubers in tuberous sclerosis complex (TSC). Moreover, we studied molecular mechanisms linking OS and inflammation in an in vitro model of neuronal function. Untangling interdependency and underlying molecular mechanisms might pose new therapeutic strategies for treating patients with drug-resistant epilepsy of different etiologies. Immunohistochemistry was performed for specific OS markers xCT and iNOS and brain inflammation markers TLR4, COX-2 and NF-κB in cortical tissue derived from patients with HME, FCD IIa, IIb and TSC. Additionally, we studied gene expression of these markers using the human neuronal cell line SH-SY5Y in which OS was induced using H 2 O 2 . OS markers were higher in dysmorphic neurons and balloon/giant cells in cortex of patients with FCD IIb or TSC. Expression of OS markers was positively correlated to expression of brain inflammation markers. In vitro, 100 µM, but not 50 µM, of H 2 O 2 increased expression of TLR4, IL-1β and COX-2. We found that NF-κB signaling was activated only upon stimulation with 100 µM H 2 O 2 leading to upregulation of TLR4 signaling and IL-1β. The NF-κB inhibitor TPCA-1 completely reversed this effect. Our results show that OS positively correlates with neuroinflammation and is particularly evident in brain tissue of patients with FCD IIb and TSC. In vitro, NF-κB is involved in the switch to an inflammatory state after OS. We propose that the extent of OS can predict the neuroinflammatory state of the brain. Additionally, antioxidant treatments may prevent the switch to inflammation in neurons thus targeting multiple epileptogenic processes at once.

Keywords

Journal Article, epilepsy, focal cortical dysplasia, hemimegalencephaly, tuberous sclerosis complex, inflammation, oxidative stress, Oxidative Stress/physiology, Humans, Middle Aged, Tuberous Sclerosis, Child, Preschool, Epilepsy/metabolism, Infant, Male, Malformations of Cortical Development/metabolism, Adult, Female, Drug Resistant Epilepsy/metabolism, Child, Infant, Newborn, Cell Line, Malformations of Cortical Development, Group I, Seizures/physiopathology, Signal Transduction, Cerebral Cortex/metabolism, Hemimegalencephaly, Inflammation/metabolism, Neurons/metabolism, Adolescent, NF-kappa B/metabolism, Brain/metabolism, Taverne, Clinical Neurology, General Neuroscience, Pathology and Forensic Medicine, Research Support, Non-U.S. Gov't, Journal Article

Citation

Arena, A, Zimmer, T S, van Scheppingen, J, Korotkov, A, Anink, J J, Mühlebner, A, Jansen, F E, van Hecke, W, Spliet, W G, van Rijen, P C, Vezzani, A, Baayen, J C, Idema, S, Iyer, A M, Perluigi, M, Mills, J D, van Vliet, E A & Aronica, E 2019, 'Oxidative stress and inflammation in a spectrum of epileptogenic cortical malformations : molecular insights into their interdependence', Brain pathology (Zurich, Switzerland), vol. 29, no. 3, pp. 351-365. https://doi.org/10.1111/bpa.12661