哮喘
医学
痰
支气管扩张剂
肺活量
转录组
生物标志物
呼出气冷凝液
免疫学
内型
基因表达
基因
内科学
病理
生物
肺
扩散能力
生物化学
肺结核
肺功能
作者
Pieter‐Paul Hekking,Matthew J. Loza,Stelios Pavlidis,Bertrand De Meulder,Diane Lefaudeux,Frédéric Baribaud,Charles Auffray,Ariane H. Wagener,Paul Brinkman,René Lutter,Aruna T. Bansal,Ana R. Sousa,Stewart Bates,Ioannis Pandis,Louise Fleming,Dominick Shaw,Stephen J. Fowler,Yike Guo,Andrea Meiser,Kai Sun
出处
期刊:The European respiratory journal
[European Respiratory Society]
日期:2017-09-01
卷期号:50 (3): 1602298-1602298
被引量:51
标识
DOI:10.1183/13993003.02298-2016
摘要
A proportion of severe asthma patients suffers from persistent airflow limitation (PAL), often associated with more symptoms and exacerbations. Little is known about the underlying mechanisms. Here, our aim was to discover unexplored potential mechanisms using Gene Set Variation Analysis (GSVA), a sensitive technique that can detect underlying pathways in heterogeneous samples. Severe asthma patients from the U-BIOPRED cohort with PAL (post-bronchodilator forced expiratory volume in 1 s/forced vital capacity ratio below the lower limit of normal) were compared with those without PAL. Gene expression was assessed on the total RNA of sputum cells, nasal brushings, and endobronchial brushings and biopsies. GSVA was applied to identify differentially enriched predefined gene signatures based on all available gene expression publications and data on airways disease. Differentially enriched gene signatures were identified in nasal brushings (n=1), sputum (n=9), bronchial brushings (n=1) and bronchial biopsies (n=4) that were associated with response to inhaled steroids, eosinophils, interleukin-13, interferon-α, specific CD4 + T-cells and airway remodelling. PAL in severe asthma has distinguishable underlying gene networks that are associated with treatment, inflammatory pathways and airway remodelling. These findings point towards targets for the therapy of PAL in severe asthma.
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