Barcelos Gustavo Rafael Mazzaron, Souza Marilesia Ferreira de, Oliveira Andréia Ávila Soares de, Lengert André van Helvoort, Oliveira Marcelo Tempesta de, Camargo Rossana Batista de Oliveira Godoy, Grotto Denise, Valentini Juliana, Garcia Solange Cristina, Braga Gilberto Úbida Leite, Cólus Ilce Mara de Syllos, Adeyemi Joseph, Barbosa Fernando
Department of Clinical Analyses, Toxicology and Food Sciences, School of Pharmaceutical Sciences of Ribeirão Preto, University of São Paulo, Avenida do Café s/no, CEP 14040-903 Ribeirão Preto, SP, Brazil.
Department of General Biology, Center for Biological Sciences, State University of Londrina, Rodovia Celso Garcia Cid km 380, CEP 86051-990 Londrina, PR, Brazil.
Environ Res. 2015 Apr;138:224-32. doi: 10.1016/j.envres.2015.02.017. Epub 2015 Feb 27.
There have been reports of genetic effects affecting the metabolism of Hg and Pb individually, and thus modulating their toxicities. However, there is still a knowledge gap with respect to how genetics may influence the toxicities of these toxic metals during a co-exposure scenario. This present study is therefore aimed at investigating the effects of polymorphisms in genes (GSTM1, GSTT1, GSTP1, GCLM, GCLC, GPx1, ALAD, VDR and MDR1) that have been implicated in Hg and Pb metabolisms affects the kinetics of these metals, as well as various blood antioxidant status parameters: MDA and GSH, and the activities of CAT, GPx and ALAD among populations that have been co-exposed to both Hg and Pb. Study subjects (207 men; 188 women) were from an Amazonian population in Brazil, exposed to Hg and Pb from diet. The blood levels of Hg and Pb were determined by ICP-MS while genotyping were performed by PCR assays. The median values of Hg and Pb in blood were 39.8µg/L and 11.0µg/dL, respectively. GSTM1, ALAD and VDR polymorphisms influenced Hg in blood (β=0.17; 0.37 and 0.17; respectively, p<0.050) while variations on GCLM, GSTT1 and MDR1 (TT) modulated the concentrations of Pb among the subjects (β=-0.14; 0.13 and -0.22; re-spectively, p<0.050). GSTT1 and GCLM polymorphisms also are associated to changes of MDA concentrations. Persons with null GSTM1 genotype had higher activity of the antioxidant enzyme CAT than carries of the allele. Individuals with deletion of both GSTM1 and GSTT1 had a decreased expression of GPx compared to those that expressed at least, one of the enzymes. ALAD 1/2 subjects had lower ALAD activity than individuals with the non-variant genotype. Our findings give further support that polymorphisms related to Hg and Pb metabolism may modulate Hg and Pb body burden and, consequently metals-induced toxicity.
有报告称基因效应分别影响汞和铅的代谢,从而调节它们的毒性。然而,关于在共同暴露情况下基因如何影响这些有毒金属的毒性,仍然存在知识空白。因此,本研究旨在调查参与汞和铅代谢的基因(GSTM1、GSTT1、GSTP1、GCLM、GCLC、GPx1、ALAD、VDR和MDR1)中的多态性对这些金属动力学的影响,以及对同时暴露于汞和铅的人群中各种血液抗氧化状态参数(丙二醛和谷胱甘肽)以及CAT、GPx和ALAD活性的影响。研究对象(207名男性;188名女性)来自巴西的一个亚马逊人群,通过饮食接触汞和铅。通过电感耦合等离子体质谱法测定血液中汞和铅的水平,通过聚合酶链反应分析进行基因分型。血液中汞和铅的中位数分别为39.8μg/L和11.0μg/dL。GSTM1、ALAD和VDR多态性影响血液中的汞(β分别为0.17、0.37和0.17;p<0.050),而GCLM、GSTT1和MDR1(TT)的变异调节了受试者体内铅的浓度(β分别为-0.14、0.13和-0.22;p<0.050)。GSTT1和GCLM多态性也与丙二醛浓度的变化有关。GSTM1基因型缺失的人抗氧化酶CAT的活性高于等位基因携带者。与至少表达一种酶的人相比,同时缺失GSTM1和GSTT1的个体GPx表达降低。ALAD 1/2受试者的ALAD活性低于非变异基因型个体。我们的研究结果进一步支持,与汞和铅代谢相关的多态性可能调节汞和铅的体内负荷,从而调节金属诱导的毒性。
