基于人群的化学物质体外危害和浓度-反应评估：千人基因组高通量筛选研究

Population-based in vitro hazard and concentration-response assessment of chemicals: the 1000 genomes high-throughput screening study.

作者信息

Abdo Nour, Xia Menghang, Brown Chad C, Kosyk Oksana, Huang Ruili, Sakamuru Srilatha, Zhou Yi-Hui, Jack John R, Gallins Paul, Xia Kai, Li Yun, Chiu Weihsueh A, Motsinger-Reif Alison A, Austin Christopher P, Tice Raymond R, Rusyn Ivan, Wright Fred A

机构信息

Department of Environmental Sciences and Engineering, University of North Carolina at Chapel Hill, Chapel Hill, North Carolina, USA.

出版信息

Environ Health Perspect. 2015 May;123(5):458-66. doi: 10.1289/ehp.1408775. Epub 2015 Jan 13.

DOI:10.1289/ehp.1408775

PMID:25622337

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4421772/

Abstract

BACKGROUND

Understanding of human variation in toxicity to environmental chemicals remains limited, so human health risk assessments still largely rely on a generic 10-fold factor (10½ each for toxicokinetics and toxicodynamics) to account for sensitive individuals or subpopulations.

OBJECTIVES

We tested a hypothesis that population-wide in vitro cytotoxicity screening can rapidly inform both the magnitude of and molecular causes for interindividual toxicodynamic variability.

METHODS

We used 1,086 lymphoblastoid cell lines from the 1000 Genomes Project, representing nine populations from five continents, to assess variation in cytotoxic response to 179 chemicals. Analysis included assessments of population variation and heritability, and genome-wide association mapping, with attention to phenotypic relevance to human exposures.

RESULTS

For about half the tested compounds, cytotoxic response in the 1% most "sensitive" individual occurred at concentrations within a factor of 10½ (i.e., approximately 3) of that in the median individual; however, for some compounds, this factor was > 10. Genetic mapping suggested important roles for variation in membrane and transmembrane genes, with a number of chemicals showing association with SNP rs13120371 in the solute carrier SLC7A11, previously implicated in chemoresistance.

CONCLUSIONS

This experimental approach fills critical gaps unaddressed by recent large-scale toxicity testing programs, providing quantitative, experimentally based estimates of human toxicodynamic variability, and also testable hypotheses about mechanisms contributing to interindividual variation.

摘要

背景

对人类对环境化学物质毒性差异的了解仍然有限，因此人类健康风险评估在很大程度上仍依赖一个通用的10倍因子（毒代动力学和毒效动力学各为10½）来考虑敏感个体或亚群。

目的

我们检验了一个假设，即全人群体外细胞毒性筛查能够快速告知个体间毒效动力学变异性的程度及其分子原因。

方法

我们使用了来自千人基因组计划的1086个淋巴母细胞系，代表来自五大洲的9个群体，以评估对179种化学物质的细胞毒性反应差异。分析包括群体差异和遗传力评估以及全基因组关联图谱绘制，并关注与人类暴露的表型相关性。

结果

对于约一半的受试化合物，1%最“敏感”个体的细胞毒性反应发生时的浓度与中位个体的浓度相差10½倍（即约3倍）以内；然而，对于某些化合物，该倍数>10。基因图谱表明膜和跨膜基因变异起重要作用，许多化学物质显示与溶质载体SLC7A11中的单核苷酸多态性rs13120371相关，该基因先前与化疗耐药性有关。

结论

这种实验方法填补了近期大规模毒性测试计划未解决的关键空白，提供了基于实验的人类毒效动力学变异性的定量估计，以及关于个体间变异机制的可检验假设。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7631/4421772/3e7a68dfa9ad/ehp.1408775.g001.jpg

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基于人群的化学物质体外危害和浓度-反应评估：千人基因组高通量筛选研究

Population-based in vitro hazard and concentration-response assessment of chemicals: the 1000 genomes high-throughput screening study.

作者信息

机构信息

出版信息

BACKGROUND

OBJECTIVES

METHODS

RESULTS

CONCLUSIONS

背景

目的

方法

结果

结论

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