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应用光电阵列和带有 LC-MS/MS 的 DNA/微粒体生物胶体反应器研究苯并[ghi]苝(B[ghi]P)人体代谢物的遗传毒性相关化学物质。

Genotoxicity-related chemistry of human metabolites of benzo[ghi]perylene (B[ghi]P) investigated using electro-optical arrays and DNA/microsome biocolloid reactors with LC-MS/MS.

机构信息

Department of Chemistry, University of Connecticut, Storrs, Connecticut 06269, USA.

出版信息

Chem Res Toxicol. 2013 Aug 19;26(8):1229-39. doi: 10.1021/tx400147c. Epub 2013 Aug 8.

DOI:10.1021/tx400147c
PMID:23879290
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3763812/
Abstract

There is limited and sometimes contradictory information about the genotoxicity of the polycyclic aromatic hydrocarbon benzo[ghi]perylene (B[ghi]P). Using recently developed metabolic toxicity screening arrays and a biocolloid reactor-LC-MS/MS approach, both featuring films of DNA and human metabolic enzymes, we demonstrated the relatively low reactivity of metabolically activated B[ghi]P toward DNA. Electro-optical toxicity screening arrays showed that B[ghi]P metabolites damage DNA at a 3-fold lower rate than benzo[a]pyrene (B[a]P), whose metabolites have a strong and well-understood propensity for DNA damage. Metabolic studies using magnetic bead biocolloid reactors coated with microsomal enzymes in 96-well plates showed that cyt P450s 1A1 and 1B1 provide high activity for B[ghi]P and B[a]P conversion. Consistent with published results, the major metabolism of B[ghi]P involved oxidations at 3,4 and 11,12 positions, leading to the formation of B[ghi]P 3,4-oxide and B[ghi]P 3,4,11,12-bisoxide. B[ghi]P 3,4-oxide was synthesized and reacted with deoxyadenosine at N6 and N7 positions and with deoxyguanosine at the N2 position. B[ghi]P 3,4-oxide is hydrolytically unstable and transforms into the 3,4-diol or converts to 3- or 4-hydroxy B[ghi]P. LC-MS/MS of reaction products from the magnetic biocolloid reactor particles coated with DNA and human enzymes revealed for the first time that a major DNA adduct results from the reaction between B[ghi]P 3,4,11,12-bisoxide and deoxyguanosine. Results also demonstrated 5-fold lower formation rates of the major DNA adduct for B[ghi]P metabolites compared to B[a]P. Overall, results from both the electro-optical array and biocolloid reactor-LC-MS/MS consistently suggest a lower human genotoxicity profile of B[ghi]P than B[a]P.

摘要

关于多环芳烃苯并[ghi]苝(B[ghi]P)的遗传毒性,信息有限且有时相互矛盾。本研究使用最近开发的代谢毒性筛选阵列和生物胶体反应器-LC-MS/MS 方法,这两种方法都采用了 DNA 和人代谢酶的薄膜,我们证明了代谢激活的 B[ghi]P 与 DNA 的相对低反应性。光电毒性筛选阵列显示,B[ghi]P 代谢物对 DNA 的损伤速率比苯并[a]芘(B[a]P)低 3 倍,B[a]P 的代谢物对 DNA 损伤具有强烈且理解透彻的倾向。使用涂有微粒体酶的磁珠生物胶体反应器在 96 孔板中进行的代谢研究表明,细胞色素 P450s 1A1 和 1B1 为 B[ghi]P 和 B[a]P 的转化提供了高活性。与已发表的结果一致,B[ghi]P 的主要代谢涉及 3、4 和 11、12 位的氧化,导致 B[ghi]P 3、4-氧化物和 B[ghi]P 3、4、11、12-双氧化物的形成。合成了 B[ghi]P 3、4-氧化物,并使其与脱氧腺苷的 N6 和 N7 位以及脱氧鸟苷的 N2 位反应。B[ghi]P 3、4-氧化物水解不稳定,转化为 3、4-二醇或转化为 3-或 4-羟基 B[ghi]P。用涂有 DNA 和人酶的磁性生物胶体反应器颗粒进行 LC-MS/MS 分析,首次揭示了主要的 DNA 加合物是由 B[ghi]P 3、4、11、12-双氧化物与脱氧鸟苷之间的反应产生的。结果还表明,与 B[a]P 相比,B[ghi]P 代谢物形成主要 DNA 加合物的速率低 5 倍。总体而言,光电阵列和生物胶体反应器-LC-MS/MS 的结果一致表明,B[ghi]P 的人类遗传毒性低于 B[a]P。