Marchi Nicola, Oby Emily, Batra Ayush, Uva Laura, De Curtis Marco, Hernandez Nadia, Van Boxel-Dezaire Anette, Najm Imad, Janigro Damir
Department of Cerebrovascular Research, The Cleveland Clinic Foundation, Cleveland, Ohio 44195, USA.
Epilepsia. 2007 Oct;48(10):1934-46. doi: 10.1111/j.1528-1167.2007.01185.x. Epub 2007 Jul 20.
A common experimental model of status epilepticus (SE) utilizes intraperitoneal administration of the cholinergic agonist pilocarpine preceded by methyl-scopolamine treatment. Currently, activation of cholinergic neurons is recognized as the only factor triggering pilocarpine SE. However, cholinergic receptors are also widely distributed systemically and pretreatment with methyl-scopolamine may not be sufficient to counteract the effects of systemically injected pilocarpine. The extent of such peripheral events and the contribution to SE are unknown and the possibility that pilocarpine also induces SE by peripheral actions is yet untested.
We measured in vivo at onset of SE: brain and blood pilocarpine levels, blood-brain barrier (BBB) permeability, T-lymphocyte activation and serum levels of IL-1beta and TNF-alpha. The effects of pilocarpine on neuronal excitability was assessed in vitro on hippocampal slices or whole guinea pig brain preparations in presence of physiologic or elevated K+.
Pilocarpine blood and brain levels at SE were 1400 +/- 200 microM and 200 +/- 80 microM, respectively. In vivo, after pilocarpine injection, increased serum IL-1beta, decreased CD4:CD8 T-lymphocyte ratios and focal BBB leakage were observed. In vitro, pilocarpine failed to exert significant synchronized epileptiform activity when applied at concentrations identical or higher to levels measured in vivo. Intense electrographic seizure-like events occurred only in the copresence of levels of K+ (6 mM) mimicking BBB leakage.
Early systemic events increasing BBB permeability may promote entry of cofactors (e. g. K+) into the brain leading to pilocarpine-induced SE. Disturbance of brain homeostasis represents an etiological factor contributing to pilocarpine seizures.
癫痫持续状态(SE)的一种常见实验模型是先给予甲基东莨菪碱治疗,然后腹腔注射胆碱能激动剂毛果芸香碱。目前,胆碱能神经元的激活被认为是引发毛果芸香碱诱导的SE的唯一因素。然而,胆碱能受体也广泛分布于全身,用甲基东莨菪碱预处理可能不足以抵消全身注射毛果芸香碱的作用。此类外周事件的程度及其对SE的影响尚不清楚,毛果芸香碱是否也通过外周作用诱导SE的可能性也尚未得到验证。
我们在SE发作时进行了体内测量:脑和血中的毛果芸香碱水平、血脑屏障(BBB)通透性、T淋巴细胞激活以及白细胞介素-1β(IL-1β)和肿瘤坏死因子-α(TNF-α)的血清水平。在生理或升高的细胞外钾离子([K+]out)存在的情况下,在体外对海马切片或全豚鼠脑标本评估了毛果芸香碱对神经元兴奋性的影响。
SE时毛果芸香碱的血药浓度和脑药浓度分别为1400±200微摩尔/升和200±80微摩尔/升。在体内,注射毛果芸香碱后,观察到血清IL-1β升高、CD4:CD8 T淋巴细胞比值降低以及局灶性BBB渗漏。在体外,当以与体内测量水平相同或更高的浓度应用毛果芸香碱时,未能产生明显的同步癫痫样活动。仅在存在模拟BBB渗漏的钾离子水平(6毫摩尔)时才会出现强烈的脑电图癫痫样事件。
早期增加BBB通透性的全身事件可能促进辅助因子(如钾离子)进入大脑,导致毛果芸香碱诱导的SE。脑内稳态的紊乱是导致毛果芸香碱癫痫发作的一个病因因素。
