Ivanov Maxim, Matsvay Alina, Glazova Olga, Krasovskiy Stanislav, Usacheva Mariya, Amelina Elena, Chernyak Aleksandr, Ivanov Mikhail, Musienko Sergey, Prodanov Timofey, Kovalenko Sergey, Baranova Ancha, Khafizov Kamil
Moscow Institute of Physics and Technology, Department of Biological and Medical Physics, Dolgoprudny, Moscow Region, Russian Federation, 141700.
Atlas Biomed Group, Moscow, Russian Federation, 121069.
BMC Med Genomics. 2018 Feb 13;11(Suppl 1):13. doi: 10.1186/s12920-018-0328-z.
Cystic fibrosis (CF) is one of the most common life-threatening genetic disorders. Around 2000 variants in the CFTR gene have been identified, with some proportion known to be pathogenic and 300 disease-causing mutations have been characterized in detail by CFTR2 database, which complicates its analysis with conventional methods.
We conducted next-generation sequencing (NGS) in a cohort of 89 adult patients negative for p.Phe508del homozygosity. Complete clinical and demographic information were available for 84 patients.
By combining MLPA with NGS, we identified disease-causing alleles in all the CF patients. Importantly, in 10% of cases, standard bioinformatics pipelines were inefficient in identifying causative mutations. Class IV-V mutations were observed in 38 (45%) cases, predominantly ones with pancreatic sufficient CF disease; rest of the patients had Class I-III mutations. Diabetes was seen only in patients homozygous for class I-III mutations. We found that 12% of the patients were heterozygous for more than two pathogenic CFTR mutations. Two patients were observed with p.[Arg1070Gln, Ser466*] complex allele which was associated with milder pulmonary obstructions (FVC 107 and 109% versus 67%, CI 95%: 63-72%; FEV 90 and 111% versus 47%, CI 95%: 37-48%). For the first time p.[Phe508del, Leu467Phe] complex allele was reported, observed in four patients (5%).
NGS can be a more information-gaining technology compared to standard methods. Combined with its equivalent diagnostic performance, it can therefore be implemented in the clinical practice, although careful validation is still required.
囊性纤维化(CF)是最常见的危及生命的遗传性疾病之一。已在CFTR基因中鉴定出约2000种变异,其中一部分已知具有致病性,CFTR2数据库已详细表征了300种致病突变,这使得用传统方法对其进行分析变得复杂。
我们对89名p.Phe508del纯合阴性的成年患者进行了下一代测序(NGS)。84名患者可获得完整的临床和人口统计学信息。
通过将多重连接探针扩增(MLPA)与NGS相结合,我们在所有CF患者中鉴定出致病等位基因。重要的是,在10%的病例中,标准生物信息学流程在识别致病突变方面效率低下。在38例(45%)病例中观察到IV-V类突变,主要是胰腺功能正常的CF疾病患者;其余患者具有I-III类突变。糖尿病仅见于I-III类突变纯合的患者。我们发现12%的患者携带两种以上致病性CFTR突变的杂合子。观察到两名患者携带p.[Arg1070Gln, Ser466*]复合等位基因,其与较轻的肺阻塞相关(FVC分别为107%和109%,而对照组为67%,95%CI:63-72%;FEV分别为90%和111%,而对照组为47%,95%CI:37-48%)。首次报道了p.[Phe508del, Leu467Phe]复合等位基因,在4名患者(5%)中观察到。
与标准方法相比,NGS可能是一种能获取更多信息的技术。结合其相当的诊断性能,因此它可以应用于临床实践,尽管仍需要仔细验证。
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