自由基阳离子在芳烃致癌作用中的作用。

Role of radical cations in aromatic hydrocarbon carcinogenesis.

作者信息

Cavalieri E, Rogan E

出版信息

Environ Health Perspect. 1985 Dec;64:69-84. doi: 10.1289/ehp.856469.

DOI:10.1289/ehp.856469

PMID:3830701

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1568595/

Abstract

Carcinogenic activation of polycyclic aromatic hydrocarbons (PAH) involves two main pathways: one-electron oxidation and monooxygenation. One-electron oxidation produces PAH radical cations, which can react with cellular nucleophiles. Results from biochemical and biological experiments indicate that only PAH with ionization potentials below ca. 7.35 eV can be metabolically activated by one-electron oxidation. In addition, the radical cations of carcinogenic PAH must have relatively high charge localization to react effectively with macromolecules in target cells. Metabolic formation of PAH quinones proceeds through radical cation intermediates. Binding of benzo[a]pyrene (BP) to mouse skin DNA occurs predominantly at C-6, the position of highest charge localization in the BP radical cation, and binding of 6-methyl BP to DNA in mouse skin yields a major adduct with the 6-methyl group bound to the 2-amino group of deoxyguanosine. Studies of carcinogenicity by direct application of PAH to rat mammary gland indicate that only PAH with ionization potentials low enough for activation by one-electron oxidation produce tumors in this target tissue. These constitute some of the results which provide evidence for the involvement of one-electron oxidation in PAH carcinogenesis.

摘要

多环芳烃（PAH）的致癌活化涉及两条主要途径：单电子氧化和单加氧作用。单电子氧化产生PAH自由基阳离子，其可与细胞亲核试剂反应。生化和生物学实验结果表明，只有电离电位低于约7.35 eV的PAH才能通过单电子氧化进行代谢活化。此外，致癌PAH的自由基阳离子必须具有相对较高的电荷局域化，才能有效地与靶细胞中的大分子反应。PAH醌的代谢形成通过自由基阳离子中间体进行。苯并[a]芘（BP）与小鼠皮肤DNA的结合主要发生在C-6位，即BP自由基阳离子中电荷局域化最高的位置，而6-甲基BP与小鼠皮肤DNA的结合产生一种主要加合物，其中6-甲基与脱氧鸟苷的2-氨基结合。通过将PAH直接应用于大鼠乳腺进行致癌性研究表明，只有电离电位低到足以通过单电子氧化活化的PAH才能在该靶组织中产生肿瘤。这些构成了一些为单电子氧化参与PAH致癌作用提供证据的结果。

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