有机磷农药暴露、PON1 与 CHAMACOS 研究中学龄儿童的神经发育。
Organophosphate pesticide exposure, PON1, and neurodevelopment in school-age children from the CHAMACOS study.
机构信息
Center for Environmental Research and Children׳s Health, School of Public Health, University of California, 1995 University Avenue, Suite 265, Berkeley, CA 94720-7380, USA.
Center for Environmental Research and Children׳s Health, School of Public Health, University of California, 1995 University Avenue, Suite 265, Berkeley, CA 94720-7380, USA.
出版信息
Environ Res. 2014 Oct;134:149-57. doi: 10.1016/j.envres.2014.07.001. Epub 2014 Aug 27.
INTRODUCTION
Organophosphate (OP) pesticides remain widely used in agriculture. Previously, we reported that PON1 genotype was directly associated with neurodevelopment at age two, and that PON1 genotype may increase susceptibility to OP exposure.
OBJECTIVES
We examined the relationships of maternal and child PON1 genotype and enzyme activity levels and neurodevelopment at school age and examined their interaction with maternal dialkyl phosphate (DAP) metabolite levels to investigate differential susceptibility to OP-related neurotoxicity.
METHODS
Participants were from the CHAMACOS longitudinal birth cohort of Latino families in an agricultural region of California. We measured DAP metabolites of OP pesticides in maternal and child urine samples, and analyzed PON1192 and PON1-108 genotypes and enzyme activity [arylesterase (ARYase), paraoxonase (POase)] in maternal and child blood. We examined their association with children׳s performance on the Conners׳ Kiddie Continuous Performance Test (K-CPT) at 5 years (n=296) and the Wechsler Intelligence Scale for Children (WISC-IV) at 7 years (n=327).
RESULTS
Maternal and child PON1 genotype was not related to performance on K-CPT or WISC, although WISC scores tended to be lowest in children and children of mothers who carried the PON-108TT genotype. Pregnancy ARYase levels were positively associated with all WISC subscales (e.g., 4.0 point increase in Full Scale IQ per standard deviation increase in ARYase, 95% CI=1.6, 6.4), while pregnancy POase levels were positively associated with WISC Processing Speed only. Maternal PON1-108 weakly modified the relationship of maternal DAPS and K-CPT scores (pinteraction=0.21) and WISC verbal IQ (pinteraction=0.71). The association between DAPs and Full-Scale IQ was strongest for children of mothers with lowest-tertile ARYase levels (pinteraction=0.27). This relationship held for both diethyl and dimethyl DAPs and for all subscales of the WISC.
CONCLUSIONS
We extend our previous findings that PON1 genotype and enzyme levels may be directly related to performance on certain domains of neurodevelopment in school-age children. Lower maternal PON1 enzyme levels during pregnancy may also increase susceptibility of children to neurotoxicity from OP pesticide exposure.
简介
有机磷(OP)农药在农业中仍被广泛使用。此前,我们报告称,PON1 基因型与两岁时的神经发育直接相关,并且 PON1 基因型可能增加对 OP 暴露的易感性。
目的
我们研究了母婴 PON1 基因型和酶活性水平与学龄期神经发育的关系,并研究了它们与母体二烷基磷酸(DAP)代谢物水平的相互作用,以研究对 OP 相关神经毒性的不同易感性。
方法
参与者来自加利福尼亚州一个农业地区的拉丁裔家庭的 CHAMACOS 纵向出生队列。我们测量了母婴尿液样本中的 OP 农药 DAP 代谢物,并分析了母婴血液中的 PON1192 和 PON1-108 基因型和酶活性(芳基酯酶(ARYase),对氧磷酶(POase))。我们研究了它们与儿童在 5 岁时的康纳斯儿童连续表现测试(K-CPT)(n=296)和 7 岁时的韦氏儿童智力量表(WISC-IV)(n=327)上的表现之间的关系。
结果
母婴 PON1 基因型与 K-CPT 或 WISC 上的表现无关,尽管携带 PON-108TT 基因型的儿童和母亲的儿童的 WISC 分数往往最低。妊娠 ARYase 水平与所有 WISC 分量表呈正相关(例如,ARYase 标准偏差增加 4.0 点,全量表智商增加,95%CI=1.6,6.4),而妊娠 POase 水平仅与 WISC 处理速度呈正相关。母体 PON1-108 轻度改变了母体 DAPS 和 K-CPT 分数之间的关系(p 交互作用=0.21)和 WISC 言语智商(p 交互作用=0.71)。母体 ARYase 水平最低三分之一的儿童的 DAP 与全量表智商的关联最强(p 交互作用=0.27)。这种关系适用于二乙基和二甲基 DAP 以及 WISC 的所有分量表。
结论
我们扩展了之前的发现,即 PON1 基因型和酶水平可能与学龄儿童神经发育的某些领域的表现直接相关。妊娠期间母体 PON1 酶水平较低,也可能增加儿童对 OP 农药毒性的易感性。
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