分析烟草特异性亚硝胺在烟草烟雾致癌性中的作用。

Buddy G Brown, August J Borschke, David J Doolittle
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引用次数: 0

摘要

卷烟烟雾是一种复杂的混合物,由 4500 多种化学物质组成,其中包括几种烟草特有的亚硝胺 (TSNA)。烟草亚硝胺通常是在收获后的烟草中形成的,其中一部分会在卷烟使用过程中燃烧时转移到主流烟雾中。研究最多的 TSNA 是 4-(甲基亚硝基氨基)-1-(3-吡啶基)-1-丁酮(NNK)。NNK 已被证明对实验室动物具有致癌性。对 NNK 致癌性的研究通常是通过向啮齿类动物注射单剂量 2.5 至 10 mumol 的纯 NNK 来进行的;这一剂量相当于约 3700 至 14 800 支典型美国香烟的所有主流烟雾中所含的 NNK 量。推断一个体重 70 公斤的吸烟者,啮齿类动物摄入的纯 NNK 致癌剂量相当于 2,200 万至 8,700 万支典型美国香烟的所有主流烟雾中的 NNK 含量。此外,根据一次注射纯 NNK 的啮齿类动物研究结果来推断 NNK 在人类长期接触烟草烟雾的致癌过程中的作用,并不符合基本的药理学和毒理学原理。例如,这种方法没有考虑其他烟雾成分对 NNK 毒性的影响。体外研究表明,尼古丁、可替宁和水性香烟 "焦油 "提取物(ACTE)都会抑制 NNK 的诱变活性。体内研究表明,注射 NNK 的小鼠肺 DNA 加合物的形成会受到可替宁和主流香烟烟雾的抑制。研究表明,香烟烟雾可调节 NNK 的新陈代谢,为香烟烟雾和香烟烟雾成分对 NNK 诱导的肿瘤发生的抑制作用提供了机制。在暴露于香烟烟雾的啮齿动物身上,尚未检测到与 NNK 相关的肺 DNA 加合物,在任何生物检测中,也未显示含有 TSNA 浓度明显降低的烟草烟雾或烟草烟雾冷凝物的毒性会降低。总之,没有实验证据表明减少 TSNA 会降低烟草烟雾的诱变、细胞毒性或致癌潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An analysis of the role of tobacco-specific nitrosamines in the carcinogenicity of tobacco smoke.

Cigarette smoke is a complex mixture consisting of more than 4500 chemicals, including several tobacco-specific nitrosamines (TSNA). TSNA typically form in tobacco during the post-harvest period, with some fraction being transferred into mainstream smoke when a cigarette is burned during use. The most studied of the TSNA is 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone (NNK). NNK has been shown to be carcinogenic in laboratory animals. Studies examining the carcinogenicity of NNK frequently are conducted by injecting rodents with a single dose of 2.5 to 10 mumol of pure NNK; the amount of NNK contained in all of the mainstream smoke from about 3700 to 14,800 typical U.S. cigarettes. Extrapolated to a 70-kg smoker, the carcinogenic dose of pure NNK administered to rodents would be equivalent to the amount of NNK in all of the mainstream smoke of 22 to 87 million typical U.S. cigarettes. Furthermore, extrapolating results from rodent studies based on a single injection of pure NNK to establish a causative role for NNK in the carcinogenicity of chronic tobacco smoke exposure in humans is not consistent with basic pharmacological and toxicological principles. For example, such an approach fails to consider the effect of other smoke constituents upon the toxicity of NNK. In vitro studies demonstrate that nicotine, cotinine, and aqueous cigarette "tar" extract (ACTE) all inhibit the mutagenic activity of NNK. In vivo studies reveal that the formation of pulmonary DNA adducts in mice injected with NNK is inhibited by the administration of cotinine and mainstream cigarette smoke. Cigarette smoke has been shown to modulate the metabolism of NNK, providing a mechanism for the inhibitory effects of cigarette smoke and cigarette smoke constituents on NNK-induced tumorigenesis. NNK-related pulmonary DNA adducts have not been detected in rodents exposed to cigarette smoke, nor has the toxicity of tobacco smoke or tobacco smoke condensate containing marked reductions in TSNA concentrations been shown to be reduced in any biological assay. In summary, there is no experimental evidence to suggest that reduction of TSNA will reduce the mutagenic, cytotoxic, or carcinogenic potential of tobacco smoke.

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