Department of Cell Biology, NCMLS, Radboud University Nijmegen Medical Centre, Nijmegen, Nijmegen, The Netherlands.
Epilepsia. 2010 Jan;51(1):79-88. doi: 10.1111/j.1528-1167.2009.02182.x. Epub 2009 Jul 14.
Brain-type creatine kinase (CK-B) and ubiquitous mitochondrial creatine kinase (UbCKmit) act as components of local phosphocreatine ATP shuttles that help in the compartmentalization and maintenance of pools of high-energy phosphate molecules in both neurons and glial cells. We investigated the role of these brain-type creatine kinases during extreme energy-demanding conditions in vivo (generalized tonic-clonic seizures) and in vitro.
The physiologic response of wild-types and mice lacking both CK-B and UbCKmit (CK--/--mice) to pentylenetetrazole (PTZ)-induced seizures was measured using electroencephalography (EEG) recordings and behavioral monitoring. In vitro intracellular Ca(2+) kinetics in hippocampal granule neurons were monitored upon single and repetitive depolarizations.
PTZ induced in only a few CK--/-- mice PTZ seizure-like behavior, but in all wild-types a full-blown seizure. EEG analysis showed that preseizure jerking was associated with high-amplitude discharges. Wild-type EEG recordings showed continuous runs of rhythmic 4-6 Hz activity, whereas no rhythmic EEG activities were observed in the few CK--/-- mice that developed a behavioral seizure. All other CK--/-- mice displayed a sudden postictal depression without any development of a generalized seizure. Hippocampal granule neurons of CK--/-- mice displayed a higher Ca(2+) removal speed following repetitive KCl-induced depolarizations.
Deficiency for creatine kinase is affecting brain energy metabolism and will likely contribute to the disturbance of seizure development. Because CK--/-- hippocampal neurons exhibited an increase in Ca(2+) removal rate of elevated intracellular levels, we conclude that altered Ca(2+) clearance in CK--/-- neurons could play a role in the abnormal EEG and seizure activity.
脑型肌酸激酶(CK-B)和普遍存在的线粒体肌酸激酶(UbCKmit)作为局部磷酸肌酸-ATP 穿梭的组成部分,有助于神经元和神经胶质细胞中高能磷酸盐分子池的区室化和维持。我们研究了这些脑型肌酸激酶在体内(全面强直阵挛性癫痫发作)和体外极端能量需求条件下的作用。
使用脑电图(EEG)记录和行为监测测量野生型和缺乏 CK-B 和 UbCKmit 的小鼠(CK--/-- 小鼠)对戊四氮(PTZ)诱导的癫痫发作的生理反应。在单次和重复去极化时监测海马颗粒神经元中的细胞内 Ca(2+)动力学。
仅在少数 CK--/-- 小鼠中诱导 PTZ 癫痫样行为,但在所有野生型中均出现全面性癫痫发作。EEG 分析表明,发作前的抽搐与高振幅放电有关。野生型 EEG 记录显示连续出现 4-6 Hz 的节律性活动,而在发生行为性癫痫发作的少数 CK--/-- 小鼠中则没有观察到节律性 EEG 活动。所有其他 CK--/-- 小鼠均表现出突发性发作后抑郁,而没有发生全身性癫痫发作。CK--/-- 小鼠的海马颗粒神经元在重复 KCl 诱导去极化后表现出更高的 Ca(2+)去除速度。
肌酸激酶缺乏会影响大脑能量代谢,并可能导致癫痫发作的发展受到干扰。由于 CK--/-- 海马神经元表现出升高的细胞内水平的 Ca(2+)去除率增加,我们得出结论,改变 CK--/-- 神经元中的 Ca(2+)清除可能在异常 EEG 和癫痫活动中发挥作用。
