Zhu Jun-Hui, Chen Zheng, Cheng Chuan-Fang, Fan Cui-Xia, Liu Yu-Jun, He Ming-Feng, Chen Yue-Fang, Lai Jin-Xing, Ye Xiu-Ling, Chen Yong-Jun, Wang Jie, Li Ya-Qin
Department of Neurology, The Seventh Affiliated Hospital of Sun Yat-Sen University, Shenzhen 518107, China.; Department of Neurology, Institute of Neuroscience, Key Laboratory of Neurogenetics and Channelopathies of Guangdong Province and the Ministry of Education of China, The Second Affiliated Hospital, Guangzhou Medical University, Guangzhou 510260, China.
Department of Pediatrics, The First Affiliated Hospital of Zhengzhou University, Zhengzhou 450052, China.
Seizure. 2025 Aug 15;131:369-377. doi: 10.1016/j.seizure.2025.08.017.
The ATP2B1 gene encodes the plasma membrane calcium-transporting ATPase 1 (PMCA1), which is predominantly expressed in the brain and plays an essential role in intracellular calcium homeostasis, potentially affecting neuronal excitability and synaptic transmission. Previous studies have identified ATP2B1 variants in patients with neurodevelopmental disorders. However, the significance of ATP2B1 variants in epilepsy remains unknown.
Trio-based whole-exome sequencing (WES) was performed in the cohorts of patients with epilepsy without acquired etiologies. To define the gene-disease association, we reviewed previously reported variants of ATP2B1 and analyzed the damaging effects of the variants, genotype-phenotype correlation, and spatial-temporal expression pattern.
ATP2B1 variants were identified in five individuals affected by generalized epilepsy or genetic epilepsy with febrile seizures plus from two unrelated families. The identified ATP2B1 variants included one de novo heterozygous missense variant (c.2920A>G/p.Ile974Val) and one co-segregated heterozygous missense variant (c.76G>A/p.Asp26Asn). The de novo variant was absent in any public population database and was evaluated as likely pathogenic according to the criteria of the American College of Medical Genetics and Genomics (ACMG). The co-segregated variant had an extremely low minor allele frequency (MAF = 7.955×10) in gnomAD. Computational modelling analysis suggested that the two variants led to impairment in protein stability. All of the patients had favourable outcomes without neurodevelopmental disorders. Further analysis revealed that neurodevelopmental disorders-associated variants were either biallelic variants or monoallelic truncation/missense variants, characterized by significant alterations in hydrogen bonding and/or hydrophobicity, along with extremely high AlphaMissense scores; while epilepsy-associated variants were missense variants with relatively little damage, resulting in no changes in hydrogen bonding or hydrophobicity. Notably, missense variants located in the functional domain with severe damaging effect were more likely to manifest as neurodevelopmental disorders comorbid with epilepsy. Additionally, ATP2B1 exhibits relatively low baseline expression at early development stages but significantly increases in later stages, with particularly high expression in the striatum, which is consistent with the generalized epilepsy phenotype observed in this study, and explains that severe damage variants were associated with early-onset neurodevelopmental disorders, whereas milder damage variants were associated with epilepsy.
ATP2B1 is a potential candidate gene for generalized epilepsy. Genetic dependent stage (GDS), gene tissue-specific expression and genotype-phenotype correlation contribute to the explanation of phenotypic heterogeneity.
ATP2B1基因编码质膜钙转运ATP酶1(PMCA1),其主要在大脑中表达,在细胞内钙稳态中起重要作用,可能影响神经元兴奋性和突触传递。先前的研究已在神经发育障碍患者中鉴定出ATP2B1变体。然而,ATP2B1变体在癫痫中的意义仍不清楚。
对无后天病因的癫痫患者队列进行基于三联体的全外显子组测序(WES)。为了确定基因与疾病的关联,我们回顾了先前报道的ATP2B1变体,并分析了这些变体的有害影响、基因型-表型相关性以及时空表达模式。
在来自两个无关家庭的5名患有全身性癫痫或伴有热性惊厥附加症的遗传性癫痫患者中鉴定出ATP2B1变体。鉴定出的ATP2B1变体包括一个新生杂合错义变体(c.2920A>G/p.Ile974Val)和一个共分离的杂合错义变体(c.76G>A/p.Asp26Asn)。该新生变体在任何公共人群数据库中均不存在,根据美国医学遗传学与基因组学学会(ACMG)的标准被评估为可能致病。该共分离变体在gnomAD中的次要等位基因频率极低(MAF = 7.955×10)。计算模型分析表明,这两个变体导致蛋白质稳定性受损。所有患者预后良好,无神经发育障碍。进一步分析发现,与神经发育障碍相关的变体要么是双等位基因变体,要么是单等位基因截短/错义变体,其特征是氢键和/或疏水性有显著改变,同时AlphaMissense分数极高;而与癫痫相关的变体是损害相对较小的错义变体,导致氢键或疏水性无变化。值得注意的是,位于功能域且具有严重损害作用的错义变体更有可能表现为与癫痫共病的神经发育障碍。此外,ATP2B1在发育早期表现出相对较低的基线表达,但在后期显著增加,在纹状体中表达尤其高,这与本研究中观察到的全身性癫痫表型一致,并解释了严重损害变体与早发性神经发育障碍相关,而较轻损害变体与癫痫相关。
ATP2B1是全身性癫痫的潜在候选基因。遗传依赖阶段(GDS)、基因组织特异性表达和基因型-表型相关性有助于解释表型异质性。
