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烟草烟雾引发肺癌。

Lung carcinogenesis by tobacco smoke.

机构信息

Masonic Cancer Center, University of Minnesota, Minneapolis, MN 55455, USA.

出版信息

Int J Cancer. 2012 Dec 15;131(12):2724-32. doi: 10.1002/ijc.27816. Epub 2012 Oct 3.

DOI:10.1002/ijc.27816
PMID:22945513
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3479369/
Abstract

Cigarette smoke is a complex mixture of chemicals including multiple genotoxic lung carcinogens. The classic mechanisms of carcinogen metabolic activation to DNA adducts, leading to miscoding and mutations in critical growth control genes, applies to this mixture but some aspects are difficult to establish because of the complexity of the exposure. This article discusses certain features of this mechanism including the role of nicotine and its receptors; lung carcinogens, co-carcinogens and related substances in cigarette smoke; structurally characterized DNA adducts in the lungs of smokers; the mutational consequences of DNA adduct formation in smokers' lungs; and biomarkers of nicotine and carcinogen uptake as related to lung cancer. While there are still uncertainties which may never be fully resolved, the general mechanisms by which cigarette smoking causes lung cancer are well understood and provide insights relevant to prevention of lung cancer, the number one cancer killer in the world, causing 1.37 million deaths per year.

摘要

香烟烟雾是一种复杂的化学混合物,包括多种遗传毒性肺致癌物。致癌物代谢激活为 DNA 加合物,导致关键生长控制基因的误码和突变的经典机制适用于这种混合物,但由于暴露的复杂性,有些方面难以确定。本文讨论了该机制的某些特征,包括尼古丁及其受体的作用;香烟烟雾中的肺致癌物、协同致癌物和相关物质;吸烟者肺部结构特征化的 DNA 加合物;吸烟者肺部 DNA 加合物形成的突变后果;以及与肺癌相关的尼古丁和致癌物摄取的生物标志物。虽然仍然存在一些可能永远无法完全解决的不确定性,但吸烟导致肺癌的一般机制已经得到很好的理解,并为预防世界头号癌症杀手——肺癌提供了相关见解,每年导致 137 万人死亡。

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