儿童口腔细胞线粒体 DNA 含量会改变心率变异性与学校近期空气污染暴露之间的关联。
Child's buccal cell mitochondrial DNA content modifies the association between heart rate variability and recent air pollution exposure at school.
机构信息
Centre for Environmental Sciences, Hasselt University, Diepenbeek, Belgium.
Centre for Environmental Sciences, Hasselt University, Diepenbeek, Belgium; Unit Environmental Risk & Health, Flemish Institute for Technological Research (VITO), Mol, Belgium.
出版信息
Environ Int. 2019 Feb;123:39-49. doi: 10.1016/j.envint.2018.11.028. Epub 2018 Nov 26.
BACKGROUND
Studies investigating short-term exposure to ambient air pollution and heart rate variability (HRV) suggest that particulate matter (PM) exposure is associated with reductions in measures of HRV. Mitochondria are sensitive to PM exposure and may represent a biologically relevant underlying mechanism. However, evidence in children is lacking.
OBJECTIVES
Here we examine whether PM has an influence on children's HRV and evaluate whether mitochondrial DNA content (mtDNAc) reflects individual susceptibility.
METHODS
Within a panel study in primary school children (aged 9-12 years), we measured HRV in a subset of 60 children on three different days during school-time using four indicators: normal-to-normal intervals (SDNN), square root of mean squared difference of normal-to-normal intervals (rMSSD), high frequency (HF), and low frequency (LF). This resulted in a total number of 150 visits (median number of visits per child: 2.5/child). MtDNAc was measured using qPCR in buccal cells. We measured recent PM exposure at the school. Residential 24-hour mean exposure to PM was modelled with a high resolution spatial temporal model. Mixed-effects models were used to estimate the association between HRV and recent PM exposure and potential effect-modification by mtDNAc.
RESULTS
Children were on average [SD] 9.9 [1.2] years and comprised 39 girls. Median [25th-75th] recent outdoor PM and PM exposure at school was 6.20 [2.8-12.8] μg/m and 29.3 [24.7-42.0] μg/m, respectively. In children with low mtDNAc (25th percentile), we observed for each 10 μg/m increment in recent PM exposure a lowering in the LF parameter with 9.76% (95% CI: -16.9 to -1.99%, p = 0.02; p = 0.007). Children with high mtDNAc did not show this association. For PM exposure, we observed an inverse association with three HRV indicators in children with low mtDNAc: -2.24% (95% CI: -4.27 to -0.16%; p = 0.04; p = 0.02) for SDNN, -5.67% (95% CI: -10.5 to -0.59%; p = 0.03; p = 0.04) for HF and -6.64% (95% CI: -10.7 to -2.38%; p = 0.003; p = 0.005) for LF.
CONCLUSIONS
HRV is inversely associated with recent PM air pollution, especially in children with low mtDNAc. Our data revealed that mtDNAc determines susceptibility to adverse autonomic effects of recent PM exposure in children.
背景
研究表明,短期接触环境空气污染和心率变异性(HRV)与 HRV 测量值的降低有关。线粒体对 PM 暴露敏感,可能是一种有生物学意义的潜在机制。然而,目前在儿童中还缺乏证据。
目的
本研究旨在探讨 PM 是否会影响儿童的 HRV,并评估线粒体 DNA 含量(mtDNAc)是否反映个体易感性。
方法
在一项针对小学生(9-12 岁)的队列研究中,我们在上学期间的三天内使用四个指标在 60 名儿童中的每一个身上测量 HRV:正常-正常间隔(SDNN)、正常-正常间隔的均方根差(rMSSD)、高频(HF)和低频(LF)。这总共产生了 150 次访问(每名儿童的中位数访问次数:2.5/儿童)。使用 qPCR 从口腔细胞中测量 mtDNAc。我们在学校测量近期 PM 暴露。使用高分辨率时空模型对 24 小时平均居住 PM 暴露进行建模。混合效应模型用于估计 HRV 与近期 PM 暴露之间的关联,以及 mtDNAc 可能产生的潜在影响。
结果
儿童平均年龄为 9.9[1.2]岁,包括 39 名女孩。最近户外 PM 和学校 PM 暴露的中位数[25 分位数-75 分位数]分别为 6.20[2.8-12.8]μg/m 和 29.3[24.7-42.0]μg/m。在 mtDNAc 较低的儿童(25 分位数)中,我们观察到最近 PM 暴露每增加 10μg/m,LF 参数降低 9.76%(95%CI:-16.9 至-1.99%,p=0.02;p=0.007)。mtDNAc 较高的儿童没有显示出这种关联。对于 PM 暴露,我们观察到 mtDNAc 较低的儿童中 HRV 三个指标与 PM 暴露呈负相关:SDNN 为-2.24%(95%CI:-4.27 至-0.16%;p=0.04;p=0.02),HF 为-5.67%(95%CI:-10.5 至-0.59%;p=0.03;p=0.04),LF 为-6.64%(95%CI:-10.7 至-2.38%;p=0.003;p=0.005)。
结论
HRV 与近期 PM 空气污染呈负相关,尤其是在 mtDNAc 较低的儿童中。我们的数据表明,mtDNAc 决定了儿童对近期 PM 暴露的不良自主神经效应的易感性。
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