Guan Wei-Jie, Li Jia-Cheng, Liu Fang, Zhou Jian, Liu Ya-Ping, Ling Chao, Gao Yong-Hua, Li Hui-Min, Yuan Jing-Jing, Huang Yan, Chen Chun-Lan, Chen Rong-Chang, Zhang Xue, Zhong Nan-Shan
State Key Laboratory of Respiratory Disease, National Clinical Research Center for Respiratory Disease, Guangzhou Institute of Respiratory Health, The First Affiliated Hospital of Guangzhou Medical University, Guangzhou Medical University, Guangzhou 510120, China.
Sino-French Hoffmann Institute, Guangzhou Medical University, Guangzhou 510120, China.
J Thorac Dis. 2018 May;10(5):2618-2630. doi: 10.21037/jtd.2018.04.134.
Defective airway host-defense (e.g., altered mucus properties, ciliary defects) contributes to the pathogenesis of bronchiectasis. This study aims to determine whether genetic mutations associated with defective airway host-defense are implicated in the pathogenesis of bronchiectasis.
Based on the systematic screening of 32 frequently reported bronchiectasis-associated genes, we performed next-generation sequencing (NGS) on peripheral blood samples from 192 bronchiectasis patients and 100 healthy subjects. The variant distribution frequency and pathogenicity of mutations were analyzed.
We identified 162 rare variants in 192 bronchiectasis patients, and 85 rare variants among 100 healthy subjects. Among bronchiectasis patients, 25 (15.4%), 117 (72.2%) and 18 (11.1%) rare variants were associated with cystic fibrosis transmembrane receptor (), epithelial sodium channel, and primary ciliary dyskinesia genes, respectively. Biallelic variants were detected in four bronchiectasis patients but none of the healthy subjects. Carriers of homozygous p.M470 plus at least one rare variant were detected in 6.3% of bronchiectasis patients (n=12) and in 1.0% of healthy subjects (n=1, P=0.039). Twenty-six patients (16 with idiopathic and 6 with post-infectious bronchiectasis) harbored biallelic variants. Bronchiectasis patients with biallelic variants, or biallelic variants plus an epithelial sodium channel variant, tended to have greater disease severity.
Genetic mutations leading to impaired host-defense might have implicated in the pathogenesis of bronchiectasis. Genetic screening may be a useful tool for unraveling the underlying causes of bronchiectasis, and offers molecular information which is complementary to conventional etiologic assessment for bronchiectasis.
气道宿主防御功能缺陷(如黏液特性改变、纤毛缺陷)有助于支气管扩张症的发病机制。本研究旨在确定与气道宿主防御功能缺陷相关的基因突变是否与支气管扩张症的发病机制有关。
基于对32个经常报道的支气管扩张症相关基因的系统筛选,我们对192例支气管扩张症患者和100名健康受试者的外周血样本进行了二代测序(NGS)。分析了突变的变异分布频率和致病性。
我们在192例支气管扩张症患者中鉴定出162个罕见变异,在100名健康受试者中鉴定出85个罕见变异。在支气管扩张症患者中,分别有25个(15.4%)、117个(72.2%)和18个(11.1%)罕见变异与囊性纤维化跨膜受体、上皮钠通道和原发性纤毛运动障碍基因相关。在4例支气管扩张症患者中检测到双等位基因变异,但在健康受试者中未检测到。在6.3%的支气管扩张症患者(n = 12)和1.0%的健康受试者(n = 1,P = 0.039)中检测到纯合p.M470加至少一个罕见变异的携带者。26例患者(16例特发性和6例感染后支气管扩张症)携带双等位基因变异。具有双等位基因变异或双等位基因变异加上皮钠通道变异的支气管扩张症患者往往疾病严重程度更高。
导致宿主防御功能受损的基因突变可能与支气管扩张症的发病机制有关。基因筛查可能是揭示支气管扩张症潜在病因的有用工具,并提供与支气管扩张症传统病因评估互补的分子信息。
