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中国巴蜀地区大学生苯并[α]芘的膳食摄入量、风险评估及分子毒性机制研究

Study on dietary intake, risk assessment, and molecular toxicity mechanism of benzo[α]pyrene in college students in China Bashu area.

作者信息

Ge Yutong, Yan Hailian, Shi Xiaodong, Wu Zhixiang, Wang Yueteng, Zhang Zelan, Luo Qing, Liu Wei, Liang Li, Peng Lianxin, Hu Jianping

机构信息

Key Laboratory of Coarse Cereal Processing, Ministry of Agriculture and Rural Affairs, School of Pharmacy, Sichuan Industrial Institute of Antibiotics Chengdu University Chengdu China.

出版信息

Food Sci Nutr. 2022 Aug 9;10(12):4155-4167. doi: 10.1002/fsn3.3007. eCollection 2022 Dec.

DOI:10.1002/fsn3.3007
PMID:36514765
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9731532/
Abstract

As an extremely strong polycyclic aromatic hydrocarbon carcinogen, benzo[α]pyrene (BaP) is often produced during food processing at high temperatures. Recently, food safety, as well as toxicity mechanism and risk assessment of BaP, has received extensive attention. We first constructed the database of BaP pollution concentration in Chinese daily food with over 10 data items; collected dietary intake data using online survey; then assessed dietary exposure risk; and finally revealed the possible toxicity mechanism through four comparative molecular dynamics (MD) simulations. The statistical results showed that the concentration of BaP in olive oil was the highest, followed by that in fried meat products. The margins of exposure and incremental lifetime cancer risk both indicated that the dietary exposure to BaP of the participants was generally safe, but there were still some people with certain carcinogenic risks. Specifically, the health risk of the core district population was higher than that of the noncore district in Bashu area, and the female postgraduate group was higher than the male group with bachelor degree or below. From MD trajectories, BaP binding does not affect the global motion of individual nucleic acid sequences, but local weak noncovalent interactions changed greatly; it also weakens molecular interactions of nucleic acid with DNA polymerase I large fragment (BF), and significantly changes the cavity structure of recognition interface. This work not only reveals the possible toxicity mechanism of BaP, but also provides theoretical guidance for the subsequent optimization of food safety standards and reference of rational diet.

摘要

作为一种极强的多环芳烃致癌物,苯并[α]芘(BaP)常在食品高温加工过程中产生。近年来,BaP的食品安全、毒性机制及风险评估受到广泛关注。我们首先构建了包含10多项数据的中国日常食品中BaP污染浓度数据库;通过在线调查收集膳食摄入数据;然后评估膳食暴露风险;最后通过四个比较分子动力学(MD)模拟揭示可能的毒性机制。统计结果表明,橄榄油中BaP的浓度最高,其次是油炸肉制品。暴露边际和终生癌症增量风险均表明,参与者膳食暴露于BaP总体上是安全的,但仍有一些人存在一定致癌风险。具体而言,巴蜀地区核心区人群的健康风险高于非核心区,女性研究生群体高于本科及以下学历男性群体。从MD轨迹来看,BaP结合并不影响单个核酸序列的整体运动,但局部弱非共价相互作用变化很大;它还削弱了核酸与DNA聚合酶I大片段(BF)的分子相互作用,并显著改变识别界面的腔结构。这项工作不仅揭示了BaP可能的毒性机制,还为后续食品安全标准的优化及合理饮食参考提供了理论指导。

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