Clarifying Chronic Obstructive Pulmonary Disease Genetic Associations Observed in Biobanks via Mediation Analysis of Smoking.

Katrina Bazemore, Jaehyun Joo, Wei-Ting Hwang, Blanca E Himes
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Abstract

Varying case definitions of COPD have heterogenous genetic risk profiles, potentially reflective of disease subtypes or classification bias (e.g., smokers more likely to be diagnosed with COPD). To better understand differences in genetic loci associated with ICD-defined versus spirometry-defined COPD we contrasted their GWAS results with those for heavy smoking among 337,138 UK Biobank participants. Overlapping risk loci were found in/near the genes ZEB2, FAM136B, CHRNA3, and CHRNA4, with the CHRNA3 locus shared across all three traits. Mediation analysis to estimate the effects of lead genotyped variants mediated by smoking found significant indirect effects for the FAM136B, CHRNA3, and CHRNA4 loci for both COPD definitions. Adjustment for mediator-outcome confounders modestly attenuated indirect effects, though in the CHRNA4 locus for spirometry-defined COPD the proportion mediated increased an additional 8.47%. Our results suggest that differences between ICD-defined and spirometry-defined COPD associated genetic loci are not a result of smoking biasing classification.

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通过对吸烟的中介分析澄清生物库中观察到的慢性阻塞性肺病遗传关联。
不同病例定义的慢性阻塞性肺病具有不同的遗传风险特征,这可能反映了疾病亚型或分类偏差(例如,吸烟者更有可能被诊断为慢性阻塞性肺病)。为了更好地了解与 ICD 定义的慢性阻塞性肺病相关的遗传位点与肺活量测定定义的慢性阻塞性肺病相关的遗传位点之间的差异,我们将其 GWAS 结果与 337 138 名英国生物库参与者中重度吸烟者的 GWAS 结果进行了对比。在 ZEB2、FAM136B、CHRNA3 和 CHRNA4 基因中/附近发现了重叠的风险基因位点,其中 CHRNA3 基因位点在所有三个性状中共享。通过中介分析来估计由吸烟介导的铅基因分型变异的影响,发现 FAM136B、CHRNA3 和 CHRNA4 基因座对两个慢性阻塞性肺病定义都有显著的间接影响。对介导因素-结果混杂因素的调整适度减弱了间接效应,但在CHRNA4位点上,对于肺活量测定定义的慢性阻塞性肺病,介导的比例额外增加了8.47%。我们的研究结果表明,ICD 定义的慢性阻塞性肺病与肺活量测定定义的慢性阻塞性肺病相关基因位点之间的差异并不是吸烟导致分类偏差的结果。
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