The salivary metabolome of children and parental caregivers in a large-scale family environment study

Jason A. Rothman, Hillary L. Piccerillo, Sage J. B. Dunham, Jenna L. Riis, Douglas A. Granger, Elizabeth A. Thomas, Katrine L. Whiteson
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Abstract

Human metabolism is complex, and is impacted by genetics, cohabitation, diet, health, and environmental inputs. As such, we applied untargeted LC-MS metabolomics to 1425 saliva samples from a diverse group of elementary school-aged children and their caregivers collected during the Family Life Project, of which 1344 were paired into caregiver/child dyads. We compared metabolomes within and between homes, performed population-wide “metabotype” analyses, and measured associations between metabolites and salivary biomeasures of inflammation, antioxidant potential, environmental tobacco smoke (ETS) exposure, metabolic regulation, and heavy metals. Children and caregivers had similar salivary metabolomes, and dyad explained most metabolomic variation. Our data clustered into two groups, indicating that “metabotypes” exist across large populations. Lastly, several metabolites—putative oxidative damage-associated or pathological markers—were correlated with the above-mentioned salivary biomeasures and heavy metals. Implications of the family environment’s effects on metabolomic variation at population, dyadic, and individual levels for human health are discussed.

Abstract Image

大规模家庭环境研究中儿童和父母照顾者的唾液代谢组
人类的新陈代谢非常复杂,受到遗传、同居、饮食、健康和环境因素的影响。因此,我们对家庭生活项目中收集的 1425 份唾液样本进行了非靶向液相色谱-质谱代谢组学分析,这些样本来自不同的小学学龄儿童及其看护者,其中 1344 份样本被配对成看护者/儿童二元组。我们比较了家庭内部和家庭之间的代谢组,进行了全人群 "代谢型 "分析,并测量了代谢物与唾液中炎症、抗氧化潜能、环境烟草烟雾(ETS)暴露、代谢调节和重金属等生物指标之间的关联。儿童和看护者的唾液代谢组相似,双亲可以解释大部分代谢组的变化。我们的数据分为两组,表明 "代谢型 "存在于大量人群中。最后,有几种代谢物--与氧化损伤相关或病理标记物--与上述唾液生物测量值和重金属相关。本文讨论了家庭环境对代谢组变异在人群、双亲和个体层面的影响对人类健康的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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