儿童脑肿瘤、居住环境杀虫剂暴露与农药代谢基因

Childhood brain tumors, residential insecticide exposure, and pesticide metabolism genes.

机构信息

Public Health Sciences Division, Fred Hutchinson Cancer Research Center, Seattle, Washington 98109-1024, USA.

出版信息

Environ Health Perspect. 2010 Jan;118(1):144-9. doi: 10.1289/ehp.0901226.

DOI:10.1289/ehp.0901226

PMID:20056567

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2831959/

Abstract

BACKGROUND

Insecticides that target the nervous system may play a role in the development of childhood brain tumors (CBTs). Constitutive genetic variation affects metabolism of these chemicals.

METHODS

We analyzed population-based case-control data to examine whether CBT is associated with the functional genetic polymorphisms PON1C-108T, PON1Q192R, PON1L55M, BCHEA539T, FMO1C-9536A, FMO3E158K, ALDH3A1S134A, and GSTT1 (null). DNA was obtained from newborn screening archives for 201 cases and 285 controls, <or= 10 years of age, and born in California or Washington State between 1978 and 1990. Conception-to-diagnosis home insecticide treatment history was ascertained by interview.

RESULTS

We observed no biologically plausible main effects for any of the metabolic polymorphisms with CBT risk. However, we observed strong interactions between genotype and insecticide exposure during childhood. Among exposed children, CBT risk increased per PON1-108T allele [odds ratio (OR) = 1.8; 95% confidence interval (CI), 1.1-3.0] and FMO1-9536A (*6) allele (OR = 2.7; 95% CI, 1.2-5.9), whereas among children never exposed, CBT risk was not increased (PON1: OR = 0.7; 95% CI, 0.5-1.0, interaction p = 0.005; FMO1: OR = 1.0; 95% CI, 0.6-1.6, interaction p = 0.009). We observed a similar but statistically nonsignificant interaction between childhood exposure and BCHEA539T (interaction p = 0.08). These interactions were present among both Hispanic and non-Hispanic white children.

CONCLUSION

Based on known effects of these variants, these results suggest that exposure in childhood to organophosphorus and perhaps to carbamate insecticides in combination with a reduced ability to detoxify them may be associated with CBT. Confirmation in other studies is required.

摘要

背景

针对神经系统的杀虫剂可能在儿童脑肿瘤 (CBT) 的发展中起作用。组成型遗传变异会影响这些化学物质的代谢。

方法

我们分析了基于人群的病例对照数据，以检验 CBT 是否与功能性遗传多态性 PON1C-108T、PON1Q192R、PON1L55M、BCHEA539T、FMO1C-9536A、FMO3E158K、ALDH3A1S134A 和 GSTT1 (null) 相关。DNA 取自 201 例病例和 285 例对照的新生儿筛查档案，年龄均<=10 岁，于 1978 年至 1990 年期间在加利福尼亚州或华盛顿州出生。通过访谈确定受孕至诊断期间家中的杀虫剂处理史。

结果

我们未观察到任何代谢多态性与 CBT 风险之间具有生物学意义的主要作用。然而，我们观察到基因型与儿童时期的杀虫剂暴露之间存在强烈的相互作用。在暴露的儿童中，每增加一个 PON1-108T 等位基因 [比值比 (OR) = 1.8；95%置信区间 (CI)，1.1-3.0] 和 FMO1-9536A (*6) 等位基因 (OR = 2.7；95% CI，1.2-5.9)，CBT 风险会增加，而在从未暴露的儿童中，CBT 风险并未增加 (PON1：OR = 0.7；95% CI，0.5-1.0，交互作用 p = 0.005；FMO1：OR = 1.0；95% CI，0.6-1.6，交互作用 p = 0.009)。我们观察到儿童时期暴露与 BCHEA539T 之间存在类似但统计学上不显著的相互作用 (交互作用 p = 0.08)。这些相互作用在西班牙裔和非西班牙裔白人儿童中均存在。

结论

基于这些变体的已知作用，这些结果表明，儿童时期接触有机磷和/或氨基甲酸酯杀虫剂，同时解毒能力降低，可能与 CBT 相关。需要在其他研究中进行确认。

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