Clinical Research Center for Children Neurodevelopmental disabilities of Hunan Province, Changsha 410008, China.
Department of Pediatrics, Xiangya Hospital, Central South University, Changsha, China; Hunan Intellectual and Developmental Disabilities Research Center, Changsha, China.
Clin Chim Acta. 2022 May 1;530:74-80. doi: 10.1016/j.cca.2022.03.001. Epub 2022 Mar 3.
Heterozygous variants of KCNQ2 can cause KCNQ2 associated neurodevelopmental disorder, mainly are benign (familial) neonatal or infantile epilepsy (B(F)NE or B(F)IE) and developmental epileptic encephalopathy(DEE). Moreover, some intermediate phenotypes, including intellectual disability (ID), and myokymia are related to the gene.
We collected a non-syndromic ID male patient with a novel KCNQ2 missense variant. Whole cell electrophysiology, western blotting, and immunofluorescence were adopted to analyze the variant's functional alterations.
The patient presented with global developmental delay since his infancy. He still had profound ID but did not have epilepsy at the adolescence. The de novo KCNQ2 variant p.R75C (NM_172107) in the NH2 domain identified here showed a slightly hyperpolarized shift of activation curves and larger current density in homomeric configurations, which could be abolished in co-expression with Kv7.2 or Kv7.3 wild-type. Western blotting and immunocytochemistry supported that the expression of variant p.R75C is lower than the Kv7.2 wild-type. The findings indicated variant p.R75C causes mild gain-of-function (GOF) of Kv7.2 channel.
We report a non-syndromic ID patient with a KCNQ2 mild GOF variant, adding evidence for this rare clinical phenotype in the disorder. We propose that individuals with KCNQ2 GOF variants are prone to have cognitive impairments.
杂合变异的 KCNQ2 可引起 KCNQ2 相关神经发育障碍,主要为良性(家族性)新生儿或婴儿癫痫(B(F)NE 或 B(F)IE)和发育性癫痫性脑病(DEE)。此外,一些中间表型,包括智力障碍(ID)和肌阵挛,与该基因有关。
我们收集了一名患有新型 KCNQ2 错义变异的非综合征性 ID 男性患者。采用全细胞膜片钳、western blot 和免疫荧光技术分析该变异的功能改变。
患者自婴儿期起即出现全面发育迟缓。他仍有严重的智力障碍,但在青春期时没有癫痫。这里鉴定的 NH2 结构域中的 KCNQ2 变异 p.R75C(NM_172107)为新生变异,表现为激活曲线轻微超极化移位,同型构象下的电流密度增大,与 Kv7.2 或 Kv7.3 野生型共表达时可被消除。Western blot 和免疫细胞化学支持变异 p.R75C 的表达低于 Kv7.2 野生型。这些发现表明,变异 p.R75C 导致 Kv7.2 通道轻度功能获得(GOF)。
我们报告了一名患有 KCNQ2 轻度 GOF 变异的非综合征性 ID 患者,为该疾病中这种罕见的临床表型提供了证据。我们提出,KCNQ2 GOF 变异的个体易发生认知障碍。
