Mechanism of Neuronal Damage in Epilepsy.
- Author:
Dae Won SEO
1
Author Information
1. Department of Neurology, Samsung Medicial Center, Sungkyunkwan University School of Medicine, Seoul, Korea. daewon3.seo@samsung.com
- Publication Type:Review
- Keywords:
Epilepsy;
Seizure;
Neuron;
Damage;
Cell death
- MeSH:
Brain;
Caspases;
Cell Death;
Epilepsy*;
Gliosis;
Humans;
Neurogenesis;
Neurons*;
Seizures;
Synapses;
Synaptic Membranes
- From:Journal of the Korean Neurological Association
2006;24(4):301-310
- CountryRepublic of Korea
- Language:Korean
-
Abstract:
Epilepsy is one of the most common episodic neurological diseases, and patients with epilepsy may experience a range of neurological, psychological, and behavioral problems. Recurring seizures potentially contribute to the progressive severity of epilepsy, cognitive and behavioral consequences. The clinical and experimental evidences involving radiological, pathological, and biochemical studies suggest that seizures can potentially injure the brain via a number of diverse molecular, cellular, and network mechanisms. The damage includes neuronal death, axodendritic changes, molecular changes of synaptic membrane, and gliosis and increased neurogenesis. Those changes induce rewiring of the network and reorganization of synapses, causing alteration of the functional and morphological properties as the mechanism of epilepsy. As the most overt form of alterations, the neuronal death may result from the execution of cellular programs that are similar to the molecular machinery of programmed cell death including the caspases and bcl-2 family proteins. In epileptic seizure, the neurons are overexcited and run out of energy. The low energy state is closely related with the necrotic pathway. The features suggest that the neuronal death in epilepsy may follow characteristic mechanism, suggesting necrotic programmed cell death pathway. Therapeutic modification of seizure-induced death could open new strategy in epilepsy treatment.
