影响Kir4.1通道的杂合KCNJ10变体导致发作性运动诱发性运动障碍。

Heterozygous KCNJ10 Variants Affecting Kir4.1 Channel Cause Paroxysmal Kinesigenic Dyskinesia.

作者信息

Huang Xiaojun, Fu Xin, Wu Jingying, Cheng Xin, Hong Xiaoqi, Li Ziyi, Zheng Lan, Liu Qing, Chen Shendi, Tang Beisha, Zhao Yuwu, Liu Xiaorong, Li Xunhua, Liu Xiaoli, Zhou Zaiwei, Wu Li, Fang Kan, Zhong Ping, Zhang Mei, Luan Xinghua, Tian Wotu, Tong Xiaoping, Cao Li

机构信息

Department of Neurology, Shanghai Sixth People's Hospital Affiliated to Shanghai Jiao Tong University School of Medicine, Shanghai, China.

Shanghai Neurological Rare Disease Biobank and Precision Diagnostic Technical Service Platform, Shanghai, China.

出版信息

Mov Disord. 2024 Dec;39(12):2199-2210. doi: 10.1002/mds.30025. Epub 2024 Oct 5.

DOI:10.1002/mds.30025

PMID:39367724

Abstract

BACKGROUND

More than 60% of paroxysmal kinesigenic dyskinesia (PKD) cases are of uncertain variants.

OBJECTIVE

The aim was to elucidate novel genetic contribution to PKD.

METHODS

A total of 476 probands with uncertain genetic causes were enrolled for whole-exome sequencing. A method of case-control analysis was applied to identify the candidate genes. Whole-cell patch-clamp recording was applied to verify the electrophysiological impact of the identified variants. A mouse model with cerebellar heterozygous knockout of the candidate gene was developed via adeno-associated virus injection, and dystonia-like phenotype inducement and rotarod tests were performed. In vivo multiunit electrical recording was applied to investigate the change in neural excitability in knockout mice.

RESULTS

Heterozygous variants of potassium inwardly rectifying channel subfamily J member 10 (KCNJ10) clustered in PKD patients were compared with those in the control groups. Fifteen variants were detected in 16 of 522 probands (frequency = 3.07%). Patients with KCNJ10 variants tended to have a milder manifestation compared to those with PRRT2 (proline-rich transmembrane protein 2) variants. KCNJ10 variants partially altered the transmembrane location of inwardly rectifying potassium channel 4.1 (Kir4.1). The Kcnj10 expression is consistent with the natural course of PKD. Variants resulted in different degrees of reduction in cell Kir4.1 currents, and mice with heterozygous conditional knockout of Kcnj10 in the cerebellum presented dystonic posture, together with poor motor coordination and motor learning ability in rotarod tests. The firing rate of deep cerebellar nuclei was significantly elevated in Kcnj10-cKO mice.

CONCLUSION

We identified heterozygous variants of KCNJ10 in PKD. Impaired function of Kir4.1 might lead to abnormal neuronal excitability, which attributed to PKD. © 2024 International Parkinson and Movement Disorder Society.

摘要

背景

超过60%的阵发性运动诱发性运动障碍（PKD）病例属于不确定的变异类型。

目的

旨在阐明PKD新的遗传因素。

方法

共纳入476例遗传病因不明的先证者进行全外显子组测序。采用病例对照分析方法鉴定候选基因。应用全细胞膜片钳记录来验证所鉴定变异的电生理影响。通过腺相关病毒注射建立候选基因小脑杂合敲除的小鼠模型，并进行肌张力障碍样表型诱导和转棒试验。应用体内多单位电记录来研究敲除小鼠神经兴奋性的变化。

结果

将PKD患者中聚集的内向整流钾通道亚家族J成员10（KCNJ10）杂合变异与对照组进行比较。在522例先证者中的16例（频率=3.07%）检测到15种变异。与富含脯氨酸的跨膜蛋白2（PRRT2）变异的患者相比，KCNJ10变异的患者表现往往较轻。KCNJ10变异部分改变了内向整流钾通道4.1（Kir4.1）的跨膜定位。Kcnj10的表达与PKD的自然病程一致。变异导致细胞Kir4.1电流不同程度降低，小脑Kcnj10杂合条件性敲除的小鼠表现出肌张力障碍姿势，同时在转棒试验中运动协调性和运动学习能力较差。Kcnj10基因敲除小鼠的小脑深部核团放电频率显著升高。