Functional characterization of KCNMA1 mutation associated with dyskinesia, seizure, developmental delay, and cerebellar atrophy.

IF 1.7 4区 医学 Q4 NEUROSCIENCES
International Journal of Neuroscience Pub Date : 2024-10-01 Epub Date: 2023-06-07 DOI:10.1080/00207454.2023.2221814
Emrah Yucesan, Beyza Goncu, Cemil Ozgul, Arda Kebapci, Ayca Dilruba Aslanger, Enes Akyuz, Gozde Yesil
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引用次数: 0

Abstract

KCNMA1 located on chromosome 10q22.3, encodes the pore-forming α subunit of the 'Big K+' (BK) large conductance calcium and voltage-activated K + channel. Numerous evidence suggests the functional BK channel alterations produced by different KCNMA1 alleles may associate with different symptoms, such as paroxysmal non kinesigenic dyskinesia with gain of function and ataxia with loss of function. Functional classifications revealed two major patterns, gain of function and loss of function effects on channel properties in different cell lines. In the literature, two mutations have been shown to confer gain of function properties to BK channels: D434G and N995S. In this study, we report the functional characterization of a variant which was previously reported the whole exome sequencing revealed bi-allelic nonsense variation of the cytoplasmic domain of calcium-activated potassium channel subunit alpha-1 protein. To detect functional consequences of the variation, we parallely conducted two independent approaches. One is immunostaining using and the other one is electrophysiological recording using patch-clamp on wild-type and R458X mutant cells to detect the differences between wild-type and the mutant cells. We detected the gain of function effect for the mutation (NM_001161352.1 (ENST00000286628.8):c.1372C > T;Arg458*) using two parallel approaches. According to the result we found, the reported mutation causes the loss of function in the cell. It should be noted that in future studies, it can be thought that the functions of genes associated with channelopathies may have a dual effect such as loss and gain.

与运动障碍、癫痫发作、发育迟缓和小脑萎缩相关的 KCNMA1 突变的功能特征。
KCNMA1 位于染色体 10q22.3,编码 "大 K+"(BK)大电导钙离子和电压激活 K + 通道的孔形成 α 亚基。大量证据表明,不同的 KCNMA1 等位基因所产生的 BK 通道功能改变可能与不同的症状有关,如阵发性非运动性运动障碍(功能获得)和共济失调(功能丧失)。功能分类揭示了两种主要模式,即功能增益和功能缺失对不同细胞系通道特性的影响。文献显示,两种突变可使 BK 通道具有功能增益特性:D434G 和 N995S。在本研究中,我们报告了一个变异的功能特征,该变异是之前报道的全外显子组测序发现的钙激活钾通道亚基α-1蛋白胞质结构域的双等位无义变异。为了检测该变异的功能性后果,我们同时采用了两种独立的方法。一种是使用免疫染色法,另一种是使用膜片钳对野生型细胞和 R458X 突变体细胞进行电生理记录,以检测野生型细胞和突变体细胞之间的差异。我们采用两种平行方法检测了突变(NM_001161352.1 (ENST00000286628.8):c.1372C > T;Arg458*)的功能增益效应。根据我们发现的结果,报告的突变导致细胞功能丧失。值得注意的是,在今后的研究中,可以认为与通道病相关的基因的功能可能具有双重效应,如缺失和增益。
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来源期刊
CiteScore
5.10
自引率
0.00%
发文量
132
审稿时长
2 months
期刊介绍: The International Journal of Neuroscience publishes original research articles, reviews, brief scientific reports, case studies, letters to the editor and book reviews concerned with problems of the nervous system and related clinical studies, epidemiology, neuropathology, medical and surgical treatment options and outcomes, neuropsychology and other topics related to the research and care of persons with neurologic disorders.  The focus of the journal is clinical and transitional research. Topics covered include but are not limited to: ALS, ataxia, autism, brain tumors, child neurology, demyelinating diseases, epilepsy, genetics, headache, lysosomal storage disease, mitochondrial dysfunction, movement disorders, multiple sclerosis, myopathy, neurodegenerative diseases, neuromuscular disorders, neuropharmacology, neuropsychiatry, neuropsychology, pain, sleep disorders, stroke, and other areas related to the neurosciences.
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