CYP1A1、GSTM1和GSTT1基因多态性对人白细胞中苯并[a]芘二环氧-DNA加合物水平的调节作用

Modulation of benzo[a]pyrene diolepoxide-DNA adduct levels in human white blood cells by CYP1A1, GSTM1 and GSTT1 polymorphism.

作者信息

Rojas M, Cascorbi I, Alexandrov K, Kriek E, Auburtin G, Mayer L, Kopp-Schneider A, Roots I, Bartsch H

机构信息

Division of Toxicology and Cancer Risk Factors, Deutsches Krebsforschungszentrum, Im Neuenheimer Feld 280, D-69120 Heidelberg, Germany.

出版信息

Carcinogenesis. 2000 Jan;21(1):35-41. doi: 10.1093/carcin/21.1.35.

DOI:10.1093/carcin/21.1.35

PMID:10607731

Abstract

The modulation of benzo[a]pyrene diolepoxide (BPDE)-DNA adduct levels by polymorphisms in the CYP1A1, GSTM1 and GSTT1 genes was assessed in leukocytes of Caucasian males. Eighty-nine coke oven workers (35 smokers, 36 ex-smokers and 18 non-smokers) were recruited from job categories with different exposure levels to polycyclic aromatic hydrocarbons (PAH), together with 44 power plant workers (all smokers) not exposed to PAH. BPDE-DNA adducts were detected in 69 of 133 (52%) DNA samples with a 100-fold variation (range 0.2-44 adducts/10(8) nt) and a median of 1.6 adducts/10(8) nt. All samples with the GSTM1 active genotype (n = 59) and five out of 74 samples with GSTM1*0/0 (7%) showed non-detectable adducts (<0.2 adducts/10(8) nt) and 69 of 74 subjects with GSTM1*0/*0 (93%) had detectable adducts (>0.2 adducts/10(8) nt). The difference in adduct level between the GSTM10/0 and GSTM1 active genotypes was highly significant (P < 0.0001). No significant difference in adduct level between the GSTT10/0 and GSTT1 active genotypes was seen. All heterozygotes (CYP1A11/2) from subjects of GSTM1 active type did not have detectable adducts. Among the GSTM1-deficient individuals (n = 69), 42 with the CYP1A11/1 genotype showed a lower adduct level (median 1.3, range 0.2-4.1 adducts/10(8) nt) compared with 26 individuals with heterozygous mutated CYP1A11/2 genotypes (median 2.5, range 0.4-6.1 adducts/10(8) nt, P < 0.015). One individual with low PAH exposure and the rare combination CYP1A12A/2A-GSTM10/0 showed an extremely high level of 44 adducts/10(8) nt. Significant differences in detectable adduct levels were found between the CYP1A11/1 and CYP1A11/2 genotypes in the exposed group low + medium (P = 0.01) and for all adduct levels, detectable and non-detectable (set at a fixed value), in highly exposed individuals and in ex-smokers (P = 0.03), whereas no such differences were observed in the control group. Mutated CYP1A11/2 increased the adduct level in non-smokers from the exposed group (1.4 versus 2.2 adducts/10(8) nt), but had no effect on the smokers from the exposed group (2.3 versus 2.8 adducts/10(8) nt). When all variables were dichotomized, statistical evaluation showed that CYP1A1 status (P = 0.015), PAH exposure (P = 0.003) and smoking (P = 0.006) had significant effects on adduct levels which increased in the order: CYP1A11/*1 < CYP1A1(*1/*2 or *2A/*2A); environmental exposure < occupational exposure; non-smokers < smokers, whereby adducts increased with cigarette dose and the duration of smoking. Higher levels of BPDE-DNA adducts in individuals with the combined CYP1A1(1/*2 or *2A/2A)-GSTM10/*0 genotype suggest that these genotype combinations are at increased risk for contracting lung cancer when exposed to PAH.

摘要

在高加索男性白细胞中评估了CYP1A1、GSTM1和GSTT1基因多态性对苯并[a]芘二环氧物（BPDE）-DNA加合物水平的调节作用。从不同多环芳烃（PAH）暴露水平的工作类别中招募了89名焦炉工人（35名吸烟者、36名曾经吸烟者和18名不吸烟者），以及44名未暴露于PAH的发电厂工人（均为吸烟者）。在133个DNA样本中的69个（52%）检测到BPDE-DNA加合物，其变化范围为100倍（0.2 - 44个加合物/10⁸核苷酸），中位数为1.6个加合物/10⁸核苷酸。所有具有GSTM1活性基因型的样本（n = 59）以及74个GSTM1*0/0样本中的5个（7%）显示加合物检测不到（<0.2个加合物/10⁸核苷酸），74名GSTM1*0/*0受试者中的69名（93%）有加合物可检测到（>0.2个加合物/10⁸核苷酸）。GSTM10/0和GSTM1活性基因型之间的加合物水平差异非常显著（P < 0.0001）。GSTT10/0和GSTT1活性基因型之间的加合物水平未观察到显著差异。来自GSTM1活性类型受试者的所有杂合子（CYP1A11/2）均未检测到加合物。在GSTM1缺陷个体（n = 69）中，42名CYP1A11/1基因型个体的加合物水平较低（中位数1.3，范围0.2 - 4.1个加合物/10⁸核苷酸），而26名CYP1A11/2杂合突变基因型个体的加合物水平较高（中位数2.5，范围0.4 - 6.1个加合物/10⁸核苷酸，P < 0.015）。一名PAH暴露水平低且具有罕见组合CYP1A12A/2A - GSTM10/0的个体显示加合物水平极高，为44个加合物/10⁸核苷酸。在低 + 中等暴露组中，CYP1A11/1和CYP1A11/2基因型之间的可检测加合物水平存在显著差异（P = 0.01），在高暴露个体和曾经吸烟者中，对于所有加合物水平（可检测和不可检测，设定为固定值）也存在显著差异（P = 0.03），而在对照组中未观察到此类差异。突变的CYP1A11/2增加了暴露组中不吸烟者的加合物水平（1.4对2.2个加合物/10⁸核苷酸），但对暴露组中的吸烟者没有影响（2.3对2.8个加合物/10⁸核苷酸）。当所有变量进行二分法处理时，统计评估表明CYP1A1状态（P = 0.015）、PAH暴露（P = 0.003）和吸烟（P = 0.006）对加合物水平有显著影响，其增加顺序为：CYP1A11/*1 < CYP1A1(*1/2或2A/*2A)；环境暴露 < 职业暴露；不吸烟者 < 吸烟者，由此加合物随着香烟剂量和吸烟持续时间增加。具有CYP1A1(1/2或2A/2A)-GSTM10/*0组合基因型的个体中较高水平的BPDE-DNA加合物表明，这些基因型组合在暴露于PAH时患肺癌的风险增加。