人类颞叶癫痫中一部分抑制性神经元在功能上上调:一种癫痫发作终止的内源性机制。
A portion of inhibitory neurons in human temporal lobe epilepsy are functionally upregulated: an endogenous mechanism for seizure termination.
作者信息
Wen Bo, Qian Hao, Feng Jing, Ge Rong-Jing, Xu Xin, Cui Zhi-Qiang, Zhu Ru-Yuan, Pan Long-Sheng, Lin Zhi-Pei, Wang Jin-Hui
机构信息
State Key lab for Brain and Cognitive Sciences, Institute of Biophysics, Chinese Academy of Sciences, Beijing, China; University of Chinese Academy of Sciences, Beijing, China.
出版信息
CNS Neurosci Ther. 2015 Feb;21(2):204-14. doi: 10.1111/cns.12336. Epub 2014 Dec 5.
MAIN PROBLEM
Epilepsy is one of the more common neurological disorders. The medication is often ineffective to the patients suffering from intractable temporal lobe epilepsy (TLE). As their seizures are usually self-terminated, the elucidation of the mechanism underlying endogenous seizure termination will help to find a new strategy for epilepsy treatment. We aim to examine the role of inhibitory interneurons in endogenous seizure termination in TLE patients.
METHODS
Whole-cell recordings were conducted on inhibitory interneurons in seizure-onset cortices of intractable TLE patients and the temporal lobe cortices of nonseizure individuals. The intrinsic property of the inhibitory interneurons and the strength of their GABAergic synaptic outputs were measured. The quantitative data were introduced into the computer-simulated neuronal networks to figure out a role of these inhibitory units in the seizure termination.
RESULTS
In addition to functional downregulation, a portion of inhibitory interneurons in seizure-onset cortices were upregulated in encoding the spikes and controlling their postsynaptic neurons. A patch-like upregulation of inhibitory neurons in the local network facilitated seizure termination. The upregulations of both inhibitory neurons and their output synapses synergistically shortened seizure duration, attenuated seizure strength, and terminated seizure propagation.
CONCLUSION
Automatic seizure termination is likely due to the fact that a portion of the inhibitory neurons and synapses are upregulated in the seizure-onset cortices. This mechanism may create novel therapeutic strategies to treat intractable epilepsy, such as the simultaneous upregulation of cortical inhibitory neurons and their output synapses.
主要问题
癫痫是较为常见的神经系统疾病之一。药物治疗对难治性颞叶癫痫(TLE)患者往往无效。由于他们的癫痫发作通常会自行终止,阐明内源性癫痫发作终止的机制将有助于找到治疗癫痫的新策略。我们旨在研究抑制性中间神经元在TLE患者内源性癫痫发作终止中的作用。
方法
对难治性TLE患者癫痫发作起始皮层和非癫痫个体颞叶皮层中的抑制性中间神经元进行全细胞记录。测量抑制性中间神经元的内在特性及其GABA能突触输出的强度。将定量数据输入计算机模拟的神经元网络,以确定这些抑制性单元在癫痫发作终止中的作用。
结果
除功能下调外,癫痫发作起始皮层中的一部分抑制性中间神经元在编码动作电位和控制其突触后神经元方面上调。局部网络中抑制性神经元的斑片状上调促进了癫痫发作的终止。抑制性神经元及其输出突触的上调协同缩短了癫痫发作持续时间,减弱了癫痫发作强度,并终止了癫痫发作的传播。
结论
癫痫发作自动终止可能是由于癫痫发作起始皮层中的一部分抑制性神经元和突触上调。这一机制可能为治疗难治性癫痫创造新的治疗策略,如同时上调皮层抑制性神经元及其输出突触。
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