Chitkara College of Pharmacy, Chitkara University, Punjab, 140401, India.
Inflamm Res. 2021 Dec;70(10-12):1027-1042. doi: 10.1007/s00011-021-01511-9. Epub 2021 Oct 15.
Mitochondrial dysfunction is a common denominator of neuroinflammation recognized by neuronal oxidative stress-mediated apoptosis that is well recognized by common intracellular molecular pathway-interlinked neuroinflammation and mitochondrial oxidative stress, a feature of epileptogenesis. In addition, the neuronal damage in the epileptic brain corroborated the concept of brain injury-mediated neuroinflammation, further providing an interlink between inflammation, mitochondrial dysfunction, and oxidative stress in epilepsy.
A systematic literature review of Bentham, Scopus, PubMed, Medline, and EMBASE (Elsevier) databases was carried out to provide evidence of preclinical and clinically used drugs targeting such nuclear, cytosolic, and mitochondrial proteins suggesting that the correlation of mechanisms linked to neuroinflammation has been elucidated in the current review. Despite that, the evidence of elevated levels of inflammatory mediators and pro-apoptotic protein levels can provide the correlation of inflammatory responses often concerned with hyperexcitability attributing to the fact that mitochondrial redox mechanisms and higher susceptibilities to neuroinflammation result from repetitive recurring epileptic seizures. Therefore, providing an understanding of seizure-induced pathological changes read by activating neuroinflammatory cascades like NF-kB, RIPK, MAPK, ERK, JNK, and JAK-STAT signaling further related to mitochondrial damage promoting hyperexcitability.
The current review highlights the further opportunity for establishing therapeutic interventions underlying the apparent correlation of neuroinflammation mediated mitochondrial oxidative stress might contribute to common intracellular mechanisms underlying a future prospective of drug treatment targeting mitochondrial dysfunction linked to the neuroinflammation in epilepsy.
线粒体功能障碍是神经炎症的一个共同特征,通过神经元氧化应激介导的细胞凋亡得到公认,这与神经炎症和线粒体氧化应激的常见细胞内分子途径相互关联,是癫痫发生的一个特征。此外,癫痫大脑中的神经元损伤证实了脑损伤介导的神经炎症的概念,进一步提供了癫痫中炎症、线粒体功能障碍和氧化应激之间的联系。
对 Bentham、Scopus、PubMed、Medline 和 EMBASE(爱思唯尔)数据库进行了系统的文献回顾,以提供针对核、胞质和线粒体蛋白的临床前和临床应用药物的证据,表明目前的综述已经阐明了与神经炎症相关的机制的相关性。尽管如此,炎症介质和促凋亡蛋白水平升高的证据可以提供炎症反应的相关性,炎症反应通常与过度兴奋有关,这是由于线粒体氧化还原机制和对神经炎症的更高敏感性是由反复发生的癫痫发作引起的。因此,了解由 NF-kB、RIPK、MAPK、ERK、JNK 和 JAK-STAT 信号等神经炎症级联反应激活引起的癫痫诱导的病理变化,进一步与促进过度兴奋的线粒体损伤有关。
本综述强调了在神经炎症介导的线粒体氧化应激的明显相关性下建立治疗干预的进一步机会,这可能有助于针对与癫痫中的神经炎症相关的线粒体功能障碍的未来药物治疗的常见细胞内机制。
