eEF2K/eEF2信号通路控制兴奋/抑制平衡及癫痫发作易感性。

eEF2K/eEF2 Pathway Controls the Excitation/Inhibition Balance and Susceptibility to Epileptic Seizures.

作者信息

Heise Christopher, Taha Elham, Murru Luca, Ponzoni Luisa, Cattaneo Angela, Guarnieri Fabrizia C, Montani Caterina, Mossa Adele, Vezzoli Elena, Ippolito Giulio, Zapata Jonathan, Barrera Iliana, Ryazanov Alexey G, Cook James, Poe Michael, Stephen Michael Rajesh, Kopanitsa Maksym, Benfante Roberta, Rusconi Francesco, Braida Daniela, Francolini Maura, Proud Christopher G, Valtorta Flavia, Passafaro Maria, Sala Mariaelvina, Bachi Angela, Verpelli Chiara, Rosenblum Kobi, Sala Carlo

机构信息

CNR Neuroscience Institute, Milan, Italy.

Sagol Department of Neurobiology, University of Haifa, Haifa, Israel.

出版信息

Cereb Cortex. 2017 Mar 1;27(3):2226-2248. doi: 10.1093/cercor/bhw075.

DOI:10.1093/cercor/bhw075

PMID:27005990

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5963824/

Abstract

Alterations in the balance of inhibitory and excitatory synaptic transmission have been implicated in the pathogenesis of neurological disorders such as epilepsy. Eukaryotic elongation factor 2 kinase (eEF2K) is a highly regulated, ubiquitous kinase involved in the control of protein translation. Here, we show that eEF2K activity negatively regulates GABAergic synaptic transmission. Indeed, loss of eEF2K increases GABAergic synaptic transmission by upregulating the presynaptic protein Synapsin 2b and α5-containing GABAA receptors and thus interferes with the excitation/inhibition balance. This cellular phenotype is accompanied by an increased resistance to epilepsy and an impairment of only a specific hippocampal-dependent fear conditioning. From a clinical perspective, our results identify eEF2K as a potential novel target for antiepileptic drugs, since pharmacological and genetic inhibition of eEF2K can revert the epileptic phenotype in a mouse model of human epilepsy.

摘要

抑制性和兴奋性突触传递平衡的改变与癫痫等神经系统疾病的发病机制有关。真核生物延伸因子2激酶（eEF2K）是一种受到高度调控的普遍存在的激酶，参与蛋白质翻译的控制。在此，我们表明eEF2K活性对GABA能突触传递起负向调节作用。事实上，eEF2K的缺失通过上调突触前蛋白突触结合蛋白2b和含α5的GABAA受体来增加GABA能突触传递，从而干扰兴奋/抑制平衡。这种细胞表型伴随着对癫痫的抵抗力增加以及仅特定海马依赖性恐惧条件反射的损伤。从临床角度来看，我们的结果将eEF2K确定为抗癫痫药物的潜在新靶点，因为对eEF2K的药理学和基因抑制可在人类癫痫小鼠模型中逆转癫痫表型。

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