加巴能
去极化
癫痫
颞叶
神经科学
体内
协同运输机
化学
共转运蛋白
运动前神经元活动
药理学
医学
跨膜蛋白
细胞外
平衡
功能(生物学)
增强子
海马体
前药
内科学
γ-氨基丁酸受体
体外
钙显像
动物研究
膜电位
内分泌学
合作性
病态的
兴奋性突触后电位
毛茛
抑制性突触后电位
发作性
抗惊厥药
作者
Florian Donneger,Adrien Zanin,Jérémy Besson,Delphine Roussel,Yoness Kadiri,Carla Pagan,Manisha Sinha,N David,Marion Russeau,Franck Bielle,Bertrand Devaux,Bertrand Mathon,Vincent Navarro,F. Chassoux,Jean Christophe Poncer
标识
DOI:10.1073/pnas.2522722123
摘要
The neuronal K/Cl cotransporter KCC2 regulates the transmembrane chloride gradient, which controls the efficacy of GABAergic signaling. In mesial temporal lobe epilepsy (mTLE) and other neurological disorders, reduced KCC2 expression or function can result in depolarizing GABA signaling, which is thought to contribute to pathological activity and seizures. Therefore, restoring chloride homeostasis represents a promising therapeutic strategy. We investigated the mechanisms and antiseizure effects of two small molecules, prochlorperazine (PCPZ) and CLP-257, that have been identified as potential KCC2 enhancers. We found that both compounds enhance KCC2 function and clustering in cortical neurons while reducing its membrane diffusion, without altering canonical regulatory phosphorylation. CLP-257 also selectively increased extrasynaptic, but not synaptic, GABA A receptor-mediated currents. Using in vitro recordings from resected brain tissue of patients with drug-resistant mTLE and in vivo recordings from a mouse model, we show that PCPZ and CLP-257 (or its prodrug CLP-290) effectively suppressed spontaneous epileptiform activity in both models. These findings reveal that PCPZ and CLP-257 act as genuine KCC2 enhancers and provide experimental evidence of the therapeutic potential of such compounds for treating drug-resistant mTLE.
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