Center for Medical Genetics and Hunan Key Laboratory of Medical Genetics, School of Life Sciences, Central South University, Changsha, Hunan, China.
Clinical Institute of Medical Genetics, University Medical Centre Ljubljana, Ljubljana, Slovenia.
Hum Genet. 2021 Apr;140(4):579-592. doi: 10.1007/s00439-020-02226-3. Epub 2020 Oct 13.
We aimed to detect the causative gene in five unrelated families with recessive inheritance pattern neurological disorders involving the central nervous system, and the potential function of the NEMF gene in the central nervous system. Exome sequencing (ES) was applied to all families and linkage analysis was performed on family 1. A minigene assay was used to validate the splicing effect of the relevant discovered variants. Immunofluorescence (IF) experiment was performed to investigate the role of the causative gene in neuron development. The large consanguineous family confirms the phenotype-causative relationship with homozygous frameshift variant (NM_004713.6:c.2618del) as revealed by ES. Linkage analysis of the family showed a significant single-point LOD of 4.5 locus. Through collaboration in GeneMatcher, four additional unrelated families' likely pathogenic NEMF variants for a spectrum of central neurological disorders, two homozygous splice-site variants (NM_004713.6:c.574+1G>T and NM_004713.6:c.807-2A>C) and a homozygous frameshift variant (NM_004713.6: c.1234_1235insC) were subsequently identified and segregated with all affected individuals. We further revealed that knockdown (KD) of Nemf leads to impairment of axonal outgrowth and synapse development in cultured mouse primary cortical neurons. Our study demonstrates that disease-causing biallelic NEMF variants result in central nervous system impairment and other variable features. NEMF is an important player in mammalian neuron development.
我们旨在检测五个具有隐性遗传模式的神经紊乱相关家族的致病基因,以及 NEMF 基因在中枢神经系统中的潜在功能。对所有家族进行外显子组测序(ES),并对家族 1 进行连锁分析。使用微基因检测来验证相关发现的变体的剪接效应。通过免疫荧光(IF)实验研究致病基因在神经元发育中的作用。通过全外显子组测序(ES),证实了这个大型近亲家族的表型-致病关系是由纯合移码变异(NM_004713.6:c.2618del)引起的。对该家族的连锁分析显示,一个显著的单点 LOD 为 4.5。通过在 GeneMatcher 中的合作,发现了另外四个不相关家族的可能致病 NEMF 变体,这些变体涉及一系列中枢神经系统疾病,其中包括两个纯合剪接位点变异(NM_004713.6:c.574+1G>T 和 NM_004713.6:c.807-2A>C)和一个纯合移码变异(NM_004713.6: c.1234_1235insC),这些变异与所有受影响的个体分离。我们进一步揭示,Nemf 的敲低(KD)导致培养的小鼠原代皮质神经元的轴突生长和突触发育受损。我们的研究表明,致病的双等位基因 NEMF 变体导致中枢神经系统损伤和其他可变特征。NEMF 是哺乳动物神经元发育的重要参与者。
