Lung development genes, adult lung function and cognitive traits.

IF 4.1 Q1 CLINICAL NEUROLOGY Brain communications Pub Date : 2024-11-01 eCollection Date: 2024-01-01 DOI:10.1093/braincomms/fcae380
Mohammad Talaei, Sheena Waters, Laura Portas, Benjamin M Jacobs, James W Dodd, Charles R Marshall, Cosetta Minelli, Seif O Shaheen
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Abstract

Lower lung function is associated with lower cognitive function and an increased risk of dementia. This has not been adequately explained and may partly reflect shared developmental pathways. In UK Biobank participants of European ancestry, we tested the association between lung function measures (forced vital capacity and forced expiratory volume in 1 s to forced vital capacity ratio; n = 306 476) and cognitive traits including nine cognitive function test scores (n = 32 321-428 609), all-cause dementia, Alzheimer's disease and vascular dementia (6805, 2859 and 1544 cases, respectively, and ∼421 241 controls). In the same population, we derived summary statistics for associations between common genetic variants in 55 lung development genes and lung function measures and cognitive traits using adjusted linear/logistic regression models. Using a hypothesis-driven Bayesian co-localization analysis, we finally investigated the presence of shared genetic signals between lung function measures and cognitive traits at each of these 55 genes. Higher lung function measures were generally associated with higher scores of cognitive function tests as well as lower risk of dementia. The strongest association was between forced vital capacity and vascular dementia (adjusted hazard ratio 0.74 per standard deviation increase, 95% confidence interval 0.67-0.83). Of the 55 genes of interest, we found shared variants in four genes, namely: CSNK2B rs9267531 (forced vital capacity and forced expiratory volume in 1 s to forced vital capacity ratio with fluid intelligence and pairs matching), NFATC3 rs548092276 & rs11275011 (forced expiratory volume in 1 s to forced vital capacity ratio with fluid intelligence), PTCH1 rs2297086 & rs539078574 (forced expiratory volume in 1 s to forced vital capacity ratio with reaction time) and KAT8 rs138259061 (forced vital capacity with pairs matching). However, the direction of effects was not in keeping with our hypothesis, i.e. variants associated with lower lung function were associated with better cognitive function or vice versa. We also found distinct variants associated with lung function and cognitive function in KAT8 (forced vital capacity and Alzheimer's disease) and PTCH1 (forced vital capacity and forced expiratory volume in 1 s to forced vital capacity ratio with fluid intelligence and reaction time). The links between CSNK2B and NFATC3 and cognitive traits have not been previously reported by genome-wide association studies. Despite shared genes and variants, our findings do not support the hypothesis that shared developmental signalling pathways explain the association of lower adult lung function with poorer cognitive function.

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肺发育基因、成人肺功能和认知特征
肺功能降低与认知功能降低和痴呆症风险增加有关。这一点尚未得到充分解释,可能部分反映了共同的发育途径。在英国生物库的欧洲血统参与者中,我们检测了肺功能指标(1 秒内用力肺活量和用力呼气量与用力肺活量之比;n = 306 476)与认知特征(包括九项认知功能测试评分(n = 32 321-428 609))、全因痴呆症、阿尔茨海默病和血管性痴呆症(病例数分别为 6805、2859 和 1544,对照数为 421 241)之间的关联。在同一人群中,我们利用调整后的线性/逻辑回归模型,得出了55个肺发育基因中常见遗传变异与肺功能指标和认知特征之间关系的汇总统计。通过假设驱动的贝叶斯共定位分析,我们最终研究了这 55 个基因中每个基因的肺功能指标与认知特征之间是否存在共同的遗传信号。较高的肺功能指标通常与较高的认知功能测试得分以及较低的痴呆风险相关。强迫生命容量与血管性痴呆之间的关联性最强(调整后的危险比为每标准差增加 0.74,95% 置信区间为 0.67-0.83)。在 55 个相关基因中,我们发现了四个基因的共有变异,即CSNK2B rs9267531(强迫生命容量和1秒内强迫呼气量与强迫生命容量比值与流体智力和配对匹配)、NFATC3 rs548092276 & rs11275011(1秒内强迫呼气量与强迫生命容量比值与流体智力)、PTCH1 rs2297086 & rs539078574(1秒内强迫呼气量与强迫生命容量比值与反应时间)和 KAT8 rs138259061(强迫生命容量与配对匹配)。然而,影响的方向与我们的假设并不一致,即与较低肺功能相关的变异与较好的认知功能相关,反之亦然。我们还在 KAT8(强迫生命容量与阿尔茨海默病)和 PTCH1(强迫生命容量和 1 秒内强迫呼气量与强迫生命容量比值与流体智力和反应时间)中发现了与肺功能和认知功能相关的不同变异。CSNK2B 和 NFATC3 与认知特征之间的联系以前从未在全基因组关联研究中报道过。尽管存在共同的基因和变异,但我们的研究结果并不支持这样的假设,即共同的发育信号通路解释了较低的成人肺功能与较差的认知功能之间的联系。
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