Shen Hongbing, Wang Luo, Spitz Margaret R, Hong Waun K, Mao Li, Wei Qingyi
Department of Epidemiology, The University of Texas M. D. Anderson Cancer Center, Houston, Texas 77030, USA.
Cancer Res. 2002 Sep 1;62(17):4992-5.
DNA repair is central to genomic integrity. Reduced expression of several nucleotide excision repair genes has been demonstrated to be associated with increased risk of lung cancer. Because methylation of gene promoters is one of the major regulatory mechanisms of gene expression and most nucleotide excision repair gene promoters have not been fully characterized, we hypothesized that genetic variants of the genes that are responsible for regulating genomic methylation are associated with increased risk of lung cancer. Recently, we identified a C-->T transition at a novel promoter region of cytosine DNA-methyltransferase-3B (DNMT3B) and found that this polymorphic transition significantly increases the promoter activity. In this hospital-based case-control study of 319 patients with incident lung cancer and 340 healthy controls frequency matched on age (+/-5 years), sex, ethnicity, and smoking status, we genotyped subjects for this DNMT3B promoter polymorphism to determine the association between this genetic variant and risk of lung cancer. Compared with CC homozygotes, CT heterozygotes had a >2-fold increased risk of lung cancer [adjusted odds ratio (OR), 2.13; 95% confidence interval (CI), 1.47-3.08] and TT homozygotes an OR of 1.42 (95% CI, 0.91-2.21). The combined variant genotype (CT + TT) was associated with a nearly 2-fold increased risk (adjusted OR, 1.88; 95% CI, 1.32-2.66). These results suggest that this novel variant of DNMT3B is associated with increased risk of lung cancer and may contribute to identifying individuals genetically susceptible to tobacco-induced cancers. Additional studies on the underlying molecular mechanism of this polymorphism are warranted.
DNA修复对于基因组完整性至关重要。已有研究表明,几种核苷酸切除修复基因的表达降低与肺癌风险增加相关。由于基因启动子的甲基化是基因表达的主要调控机制之一,且大多数核苷酸切除修复基因启动子尚未得到充分表征,我们推测负责调节基因组甲基化的基因的遗传变异与肺癌风险增加相关。最近,我们在胞嘧啶DNA甲基转移酶3B(DNMT3B)的一个新启动子区域发现了一个C→T转换,并发现这种多态性转换显著增加了启动子活性。在这项基于医院的病例对照研究中,我们纳入了319例新发肺癌患者和340名年龄(±5岁)、性别、种族和吸烟状况频率匹配的健康对照,对受试者进行了该DNMT3B启动子多态性的基因分型,以确定这种遗传变异与肺癌风险之间的关联。与CC纯合子相比,CT杂合子患肺癌的风险增加了2倍以上[调整后的优势比(OR)为2.13;95%置信区间(CI)为1.47 - 3.08],TT纯合子的OR为1.42(95% CI为0.91 - 2.21)。联合变异基因型(CT + TT)与风险增加近2倍相关(调整后的OR为1.88;95% CI为1.32 - 2.66)。这些结果表明,DNMT3B的这种新变异与肺癌风险增加相关,可能有助于识别对烟草诱导癌症具有遗传易感性的个体。有必要对这种多态性的潜在分子机制进行更多研究。
