慢性阻塞性肺疾病临床稳定期和加重期细菌相互作用组紊乱。
Bacterial interactome disturbance in chronic obstructive pulmonary disease clinical stability and exacerbations.
机构信息
Division of Pulmonary Medicine, Department of Internal Medicine, Institute of Integrated Traditional Chinese and Western Medicine, West China Hospital of Sichuan University, No. 37, Guoxue Lane, Wuhou District, Chengdu, 610041, China.
Divison of Pulmonary diseases, State Key Laboratory of Biotherapy, West China Hospital of Sichuan University, Chengdu, China.
出版信息
Respir Res. 2024 Apr 20;25(1):173. doi: 10.1186/s12931-024-02802-5.
RATIONALE
Our understanding of airway dysbiosis in chronic obstructive pulmonary disease (COPD) remains incomplete, which may be improved by unraveling the complexity in microbial interactome.
OBJECTIVES
To characterize reproducible features of airway bacterial interactome in COPD at clinical stability and during exacerbation, and evaluate their associations with disease phenotypes.
METHODS
We performed weighted ensemble-based co-occurrence network analysis of 1742 sputum microbiomes from published and new microbiome datasets, comprising two case-control studies of stable COPD versus healthy control, two studies of COPD stability versus exacerbation, and one study with exacerbation-recovery time series data.
RESULTS
Patients with COPD had reproducibly lower degree of negative bacterial interactions, i.e. total number of negative interactions as a proportion of total interactions, in their airway microbiome compared with healthy controls. Evaluation of the Haemophilus interactome showed that the antagonistic interaction networks of this established pathogen rather than its abundance consistently changed in COPD. Interactome dynamic analysis revealed reproducibly reduced antagonistic interactions but not diversity loss during COPD exacerbation, which recovered after treatment. In phenotypic analysis, unsupervised network clustering showed that loss of antagonistic interactions was associated with worse clinical symptoms (dyspnea), poorer lung function, exaggerated neutrophilic inflammation, and higher exacerbation risk. Furthermore, the frequent exacerbators (≥ 2 exacerbations per year) had significantly reduced antagonistic bacterial interactions while exhibiting subtle compositional changes in their airway microbiota.
CONCLUSIONS
Bacterial interactome disturbance characterized by reduced antagonistic interactions, rather than change in pathogen abundance or diversity, is a reproducible feature of airway dysbiosis in COPD clinical stability and exacerbations, which suggests that we may target interactome rather than pathogen alone for disease treatment.
背景
我们对于慢性阻塞性肺疾病(COPD)气道微生态失调的理解仍不完整,通过阐明微生物互作网络的复杂性,可能会对此有所改善。
目的
在 COPD 临床稳定期和加重期,对气道细菌互作网络的可重现特征进行描述,并评估其与疾病表型的相关性。
方法
我们对来自已发表和新的微生物组数据集的 1742 例痰微生物组进行了基于加权集成的共现网络分析,这些数据集包括 2 项 COPD 稳定期与健康对照的病例对照研究、2 项 COPD 稳定期与加重期的研究,以及 1 项加重期-恢复期时间序列研究。
结果
与健康对照相比,COPD 患者气道微生物组中负性细菌互作的程度(即负性互作总数占总互作数的比例)可重现性降低。对嗜血杆菌互作组的评估表明,这种已确立的病原体的拮抗互作网络而非其丰度,在 COPD 中持续变化。互作网络动态分析显示,在 COPD 加重期间,拮抗互作减少,但多样性并未丢失,经治疗后恢复。在表型分析中,无监督网络聚类显示,拮抗互作的丧失与更严重的临床症状(呼吸困难)、更差的肺功能、过度的中性粒细胞炎症和更高的加重风险相关。此外,频繁加重者(每年≥2 次加重)的气道细菌互作明显减少,而气道微生物组仅表现出细微的组成变化。
结论
在 COPD 临床稳定期和加重期,气道微生态失调的一个可重现特征是细菌互作网络的紊乱,表现为拮抗互作减少,而非病原体丰度或多样性的改变,这提示我们可能需要针对互作网络而非病原体本身进行疾病治疗。
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