Chen Wen-Qi, Yuan Yu-Fan, Hu Ke-Na, Sun Dong-Lan, Wang Si-Wen, He Qing-Bing, Liu Yan-Ming, Han Cong-Ying, Zhang Jing, Li Ya-Zhou
Prenatal Diagnosis Center, Shijiazhuang Obstetrics and Gynecology Hospital, Shijiazhuang, Hebei 050011, P.R. China.
Hebei Key Laboratory of Maternal and Fetal Medicine, Shijiazhuang, Hebei 050011, P.R. China.
Exp Ther Med. 2024 Apr 29;27(6):270. doi: 10.3892/etm.2024.12558. eCollection 2024 Jun.
Inherited neuromuscular disorder (IND) is a broad-spectrum, clinically diverse group of diseases that are caused due to defects in the neurosystem, muscles and related tissue. Since IND may originate from mutations in hundreds of different genes, the resulting heterogeneity of IND is a great challenge for accurate diagnosis and subsequent management. Three pediatric cases with IND were enrolled in the present study and subjected to a thorough clinical examination. Next, a genetic investigation was conducted using whole-exome sequencing (WES). The suspected variants were validated through Sanger sequencing or quantitative fluorescence PCR assay. A new missense variant of the Spastin () gene was found and analyzed at the structural level using molecular dynamics (MD) simulations. All three cases presented with respective specific clinical manifestations, which reflected the diversity of IND. WES detected the diagnostic variants in all 3 cases: A compound variation comprising collagen type VI α3 chain () (NM_004369; exon19):c.6322G>T(p.E1208*) and a one-copy loss of COL6A3:exon19 in Case 1, which are being reported for the first time; a (NM_014946; exon8):c.1166C>A(p.T389K) variant in Case 2; and a Duchenne muscular dystrophy (NM_004006; exon11):c.1150-17_1160delACTTCCTTCTTTGTCAGGGGTACATGATinsC variant in Case 3. The structural and MD analyses revealed that the detected novel : c.1166C>A(p.T389K) variant mainly altered the intramolecular hydrogen bonding status and the protein segment's secondary structure. In conclusion, the present study expanded the IND mutation spectrum. The study not only detailed the precise diagnoses of these cases but also furnished substantial grounds for informed consultations. The approach involving the genetic evaluation strategy using WES for variation screening followed by validation using appropriate methods is beneficial due to the considerable heterogeneity of IND.
遗传性神经肌肉疾病(IND)是一组谱系广泛、临床表现多样的疾病,由神经系统、肌肉及相关组织的缺陷引起。由于IND可能源于数百种不同基因的突变,其产生的异质性给准确诊断及后续治疗带来了巨大挑战。本研究纳入了3例患有IND的儿科病例,并对其进行了全面的临床检查。接下来,采用全外显子组测序(WES)进行基因检测。通过桑格测序或定量荧光PCR分析对疑似变异进行验证。发现了Spastin()基因的一个新错义变异,并使用分子动力学(MD)模拟在结构水平上进行了分析。所有3例病例均表现出各自特定的临床表现,这反映了IND的多样性。WES在所有3例病例中均检测到了诊断性变异:病例1中为包含VI型胶原α3链()(NM_004369;外显子19):c.6322G>T(p.E1208*)的复合变异及COL6A3外显子19的单拷贝缺失,这是首次报道;病例2中为(NM_014946;外显子8):c.1166C>A(p.T389K)变异;病例3中为杜兴氏肌营养不良(NM_004006;外显子11):c.1150 - 17_1160delACTTCCTTCTTTGTCAGGGGTACATGATinsC变异。结构和MD分析表明,检测到的新的:c.1166C>A(p.T389K)变异主要改变了分子内氢键状态和蛋白质片段的二级结构。总之,本研究扩展了IND突变谱。该研究不仅详细说明了这些病例的精确诊断,还为知情咨询提供了充分依据。由于IND具有相当大的异质性,采用WES进行变异筛查的基因评估策略,随后使用适当方法进行验证的方法是有益的。
