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GSTP1 Ile105 Val 多态性改变甲苯二异氰酸酯的代谢。

The GSTP1 Ile105 Val polymorphism modifies the metabolism of toluene di-isocyanate.

机构信息

Department of Occupational and Environmental Medicine, Lund University, Lund, Sweden.

出版信息

Pharmacogenet Genomics. 2010 Feb;20(2):104-11. doi: 10.1097/FPC.0b013e328334fb84.

DOI:10.1097/FPC.0b013e328334fb84
PMID:20032816
Abstract

BACKGROUND

Toluene di-isocyanate (TDI) is widely used in the production of polyurethane foams and paints. As TDI causes respiratory disease in only a fraction of exposed workers, genetic factors may play a key role in disease susceptibility. Polymorphisms in TDI metabolising genes may affect elimination kinetics, resulting in differences in body retention, and in its turn differences in adverse effects.

OBJECTIVES

To analyze how genotype modifies the associations between (i) TDI in air (2,4-TDI and 2,6-TDI) and its metabolites toluene diamine (TDA; 2,4-TDA and 2,6-TDA) in hydrolyzed urine; and (ii) 2,4-TDA and 2,6-TDA in hydrolyzed plasma and 2,4-TDA and 2,6-TDA in urine.

METHODS

Workers exposed to TDI were analyzed for 2,4-TDI and 2,6-TDI in air (N=70), 2,4-TDA and 2,6-TDA in hydrolyzed urine (N=124) and in plasma (N=128), and genotype: CYP1A12A, CYP1A12B, GSTA1-52, GSTM1O, GSTM3B, GSTP1 I105V, GSTP1 A114V, GSTT1O, MPO-463, NAT1*3, *4, *10, *11, *14, 15, NAT25, *6, *7, and SULT1A1 R213H.

RESULTS

GSTP1 105 strongly modified the relationship between 2,4-TDA in plasma and in urine: ValVal carriers had about twice as steep regression slope than IleIle carriers. A similar pattern was found for 2,6-TDA. CYP1A1*2A, GSTM1, GSTP1, GSTT1, and MPO possibly influenced the relationship between TDA in plasma and urine.

CONCLUSION

Our results show, for the first time, genetic modification on the human TDI metabolism. The findings suggest that GSTP1 genotype should be considered when evaluating biomarkers of TDI exposure in urine and plasma. Moreover, the results support earlier findings of GSTP1 105 Val as protective against TDI-related asthma.

摘要

背景

甲苯二异氰酸酯(TDI)广泛用于生产聚氨酯泡沫和涂料。由于 TDI 仅在一小部分接触工人中引起呼吸道疾病,因此遗传因素可能在疾病易感性中起关键作用。TDI 代谢基因的多态性可能会影响消除动力学,从而导致体内滞留的差异,并由此导致不良反应的差异。

目的

分析基因型如何修饰(i)空气中的 TDI(2,4-TDI 和 2,6-TDI)与其代谢物甲苯二胺(TDA;2,4-TDA 和 2,6-TDA)在水解尿液中的关系;以及(ii)水解血浆中的 2,4-TDA 和 2,6-TDA 与尿液中的 2,4-TDA 和 2,6-TDA 之间的关系。

方法

对接触 TDI 的工人进行了空气中的 2,4-TDI 和 2,6-TDI(N=70)、水解尿液中的 2,4-TDA 和 2,6-TDA(N=124)和血浆中的 2,4-TDA 和 2,6-TDA(N=128)进行了分析,并对 CYP1A12A、CYP1A12B、GSTA1-52、GSTM1O、GSTM3B、GSTP1 I105V、GSTP1 A114V、GSTT1O、MPO-463、NAT1*3、*4、*10、*11、*14、15、NAT25、*6、*7 和 SULT1A1 R213H 进行了基因分型。

结果

GSTP1 105 强烈改变了血浆和尿液中 2,4-TDA 的关系:与 IleIle 携带者相比,ValVal 携带者的回归斜率大约高两倍。2,6-TDA 也出现了类似的模式。CYP1A1*2A、GSTM1、GSTP1、GSTT1 和 MPO 可能影响了 TDA 在血浆和尿液中的关系。

结论

我们的研究结果首次表明,遗传修饰对人体 TDI 代谢有影响。这些发现表明,在评估尿液和血浆中 TDI 暴露的生物标志物时,应考虑 GSTP1 基因型。此外,这些结果支持 GSTP1 105 Val 作为 TDI 相关哮喘保护因子的早期发现。

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