暴露于交通颗粒物后DNA甲基化迅速改变。
Rapid DNA methylation changes after exposure to traffic particles.
作者信息
Baccarelli Andrea, Wright Robert O, Bollati Valentina, Tarantini Letizia, Litonjua Augusto A, Suh Helen H, Zanobetti Antonella, Sparrow David, Vokonas Pantel S, Schwartz Joel
机构信息
Laboratory of Environmental Epigenetics, Department of Environmental and Occupational Health, University of Milan, Via San Barnaba 8, 20122 Milan, Italy.
出版信息
Am J Respir Crit Care Med. 2009 Apr 1;179(7):572-8. doi: 10.1164/rccm.200807-1097OC. Epub 2009 Jan 8.
RATIONALE
Exposure to particulate air pollution has been related to increased hospitalization and death, particularly from cardiovascular disease. Lower blood DNA methylation content is found in processes related to cardiovascular outcomes, such as oxidative stress, aging, and atherosclerosis.
OBJECTIVES
We evaluated whether particulate pollution modifies DNA methylation in heavily methylated sequences with high representation throughout the human genome.
METHODS
We measured DNA methylation of long interspersed nucleotide element (LINE)-1 and Alu repetitive elements by quantitative polymerase chain reaction-pyrosequencing of 1,097 blood samples from 718 elderly participants in the Boston area Normative Aging Study. We used covariate-adjusted mixed models to account for within-subject correlation in repeated measures. We estimated the effects on DNA methylation of ambient particulate pollutants (black carbon, particulate matter with aerodynamic diameter < or = 2.5 microm [PM2.5], or sulfate) in multiple time windows (4 h to 7 d) before the examination. We estimated standardized regression coefficients (beta) expressing the fraction of a standard deviation change in DNA methylation associated with a standard deviation increase in exposure.
MEASUREMENTS AND MAIN RESULTS
Repetitive element DNA methylation varied in association with time-related variables, such as day of the week and season. LINE-1 methylation decreased after recent exposure to higher black carbon (beta = -0.11; 95% confidence interval [CI], -0.18 to -0.04; P = 0.002) and PM2.5 (beta = -0.13; 95% CI, -0.19 to -0.06; P < 0.001 for the 7-d moving average). In two-pollutant models, only black carbon, a tracer of traffic particles, was significantly associated with LINE-1 methylation (beta = -0.09; 95% CI, -0.17 to -0.01; P = 0.03). No association was found with Alu methylation (P > 0.12).
CONCLUSIONS
We found decreased repeated-element methylation after exposure to traffic particles. Whether decreased methylation mediates exposure-related health effects remains to be determined.
原理
暴露于空气中的颗粒物污染与住院率和死亡率增加有关,尤其是心血管疾病导致的住院率和死亡率。在与心血管疾病结局相关的过程中,如氧化应激、衰老和动脉粥样硬化,发现血液中的DNA甲基化含量较低。
目的
我们评估了颗粒物污染是否会改变人类基因组中高度甲基化且广泛存在的序列中的DNA甲基化。
方法
我们通过定量聚合酶链反应-焦磷酸测序法,对波士顿地区规范衰老研究中718名老年参与者的1097份血液样本中的长散在核元件(LINE)-1和Alu重复元件的DNA甲基化进行了测量。我们使用协变量调整的混合模型来考虑重复测量中的个体内相关性。我们估计了在检查前多个时间窗口(4小时至7天)内环境颗粒物污染物(黑碳、空气动力学直径≤2.5微米的颗粒物[PM2.5]或硫酸盐)对DNA甲基化的影响。我们估计了标准化回归系数(β),表示与暴露增加一个标准差相关的DNA甲基化标准差变化的比例。
测量结果与主要结论
重复元件DNA甲基化随时间相关变量而变化,如一周中的日期和季节。近期暴露于较高浓度的黑碳(β=-0.11;95%置信区间[CI],-0.18至-0.04;P=0.002)和PM2.5(β=-0.13;95%CI,-0.19至-0.06;7天移动平均值的P<0.001)后,LINE-1甲基化降低。在双污染物模型中,只有作为交通颗粒物示踪剂的黑碳与LINE-1甲基化显著相关(β=-0.09;95%CI,-0.17至-0.01;P=0.03)。未发现与Alu甲基化有关联(P>0.12)。
结论
我们发现暴露于交通颗粒物后重复元件甲基化降低。甲基化降低是否介导了与暴露相关的健康影响仍有待确定。
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