吸烟、DNA 甲基转移酶 3B 遗传多态性与 DNA 损伤联合作用与肺癌的关系

Combined effects of cigarette smoking, DNA methyltransferase 3B genetic polymorphism, and DNA damage on lung cancer.

机构信息

Department of Public Health, Chung Shan Medical University, No. 110 Chien-Kuo N Rd., Sec. 1, Taichung, Taiwan, 40242.

Institute of Medicine, Chung Shan Medical University, Taichung, Taiwan.

出版信息

BMC Cancer. 2021 Sep 29;21(1):1066. doi: 10.1186/s12885-021-08800-w.

DOI:10.1186/s12885-021-08800-w

PMID:34587932

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8480053/

Abstract

BACKGROUND

Smoking increases DNA methylation and DNA damage, and DNA damage acts as a vital cause of tumor development. The DNA methyltransferase 3B (DNMT3B) enhances promoter activity and methylation of tumor suppressor genes. Tea polyphenols may inhibit DNMT activity. We designed a case-control study to evaluate the combined effects of smoking, green tea consumption, DNMT3B - 149 polymorphism, and DNA damage on lung cancer occurrence.

METHODS

Questionnaires were administered to obtain demographic characteristics, life styles, and family histories of lung cancer from 190 primary lung cancer cases and 380 healthy controls. Genotypes and cellular DNA damage were determined by polymerase chain reaction and comet assay, respectively.

RESULTS

The mean DNA tail moment for lung cancer cases was significantly higher than that for healthy controls. Compared to nonsmokers carrying the DNMT3B - 149 CT genotype, smokers carrying the TT genotype had a greater lung cancer risk (odds ratio [OR]: 2.83, 95% confidence interval [CI]: 1.62-4.93). DNA damage levels were divided by the tertile of the healthy controls' values. Compared to nonsmokers with low DNA damage, smokers with moderate DNA damage (OR: 2.37, 95% CI: 1.54-3.63) and smokers with high DNA damage (OR: 3.97, 95% CI: 2.63-5.98) had elevated lung cancer risks. Interaction between smoking and DNA damage significantly affected lung cancer risk.

CONCLUSIONS

Our study suggested that the DNMT3B - 149 TT genotype, which has higher promoter activity, can increase the lung cancer risk elicited by smoking, and DNA damage may further promote smoking related lung cancer development.

摘要

背景

吸烟会增加 DNA 甲基化和 DNA 损伤，而 DNA 损伤是肿瘤发展的重要原因。DNA 甲基转移酶 3B（DNMT3B）可增强肿瘤抑制基因的启动子活性和甲基化。茶多酚可能抑制 DNMT 活性。我们设计了一项病例对照研究，以评估吸烟、绿茶摄入、DNMT3B-149 多态性和 DNA 损伤对肺癌发生的联合作用。

方法

通过问卷从 190 例原发性肺癌病例和 380 例健康对照中获取人口统计学特征、生活方式和肺癌家族史。通过聚合酶链反应和彗星试验分别确定基因型和细胞 DNA 损伤。

结果

肺癌病例的平均 DNA 尾矩明显高于健康对照组。与携带 DNMT3B-149 CT 基因型的非吸烟者相比，携带 TT 基因型的吸烟者患肺癌的风险更高（比值比 [OR]：2.83，95%置信区间 [CI]：1.62-4.93）。将 DNA 损伤水平按健康对照组值的三分位进行划分。与低 DNA 损伤的非吸烟者相比，中等 DNA 损伤的吸烟者（OR：2.37，95%CI：1.54-3.63）和高 DNA 损伤的吸烟者（OR：3.97，95%CI：2.63-5.98）患肺癌的风险增加。吸烟和 DNA 损伤之间的交互作用显著影响肺癌风险。

结论

我们的研究表明，具有更高启动子活性的 DNMT3B-149 TT 基因型可增加吸烟引起的肺癌风险，而 DNA 损伤可能进一步促进与吸烟相关的肺癌发展。

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