人类粪便微生物群通过雷普汀缀合和进一步转化来代谢食物源杂环芳香胺。

The Human Fecal Microbiota Metabolizes Foodborne Heterocyclic Aromatic Amines by Reuterin Conjugation and Further Transformations.

机构信息

Department of Safety and Quality of Fruit and Vegetables, Max Rubner-Institut (MRI), Federal Research Institute of Nutrition and Food, Haid-und-Neu-Straße 9, 76131, Karlsruhe, Germany.

Department of Food Chemistry and Phytochemistry, Karlsruhe Institute of Technology (KIT), Adenauerring 20a, 76131, Karlsruhe, Germany.

出版信息

Mol Nutr Food Res. 2019 May;63(10):e1801177. doi: 10.1002/mnfr.201801177. Epub 2019 Mar 27.

DOI:10.1002/mnfr.201801177

PMID:30815965

Abstract

SCOPE

Heterocyclic aromatic amines (HAAs) are process-induced food contaminants with high mutagenic and/or carcinogenic potential. Although the human gut microbiota is known to affect the metabolism of dietary constituents, its impact on HAA metabolism and toxicity has been little studied. Here, the glycerol-dependent metabolism of seven foodborne HAAs (AαC, Trp-P-1, harman, norharman, PhIP, MeIQx, and MeIQ) by the human fecal microbiota is investigated.

METHODS AND RESULTS

As analyzed by HPLC-DAD/FLD, the extent of conversion is strongly dependent on glycerol supplementation and HAA structure. AαC (60-100%) and the 2-aminoimidazoazarenes (up to 58%) are especially prone to microbial conversion. Based on high-resolution MS and/or NMR spectroscopy data, 70 fecal metabolites are identified in total, mainly formed by chemical reactions with one or two molecules of microbially derived reuterin. Moreover, it has been demonstrated that the human fecal microbiota can further transform reuterin adducts by reduction and/or hydroxylation reactions. Upon isolation, some reuterin-induced HAA metabolites appear to be partially unstable, complicating structural identification.

CONCLUSION

The formation of microbial metabolites needs to be incorporated into risk assessment considerations for HAAs in human health. In this study, several HAA metabolites, mainly reuterin-dependent, are identified in vitro, providing the basis for future human studies investigating microbial HAA metabolism.

摘要

范围

杂环芳香胺（HAAs）是由加工过程产生的食物污染物，具有较高的诱变和/或致癌潜力。尽管已知人类肠道微生物群会影响膳食成分的代谢，但对 HAA 代谢和毒性的影响却鲜有研究。在这里，研究了人类粪便微生物群对七种食源性 HAAs（AαC、Trp-P-1、harman、norharman、PhIP、MeIQx 和 MeIQ）的甘油依赖性代谢。

方法和结果

通过 HPLC-DAD/FLD 分析，转化程度强烈依赖于甘油的补充和 HAA 的结构。AαC（60-100%）和 2-氨基咪唑并吖嗪（高达 58%）特别容易被微生物转化。基于高分辨率 MS 和/或 NMR 光谱数据，共鉴定出 70 种粪便代谢物，主要是通过与微生物衍生的雷菌醇的一个或两个分子的化学反应形成的。此外，已经证明人类粪便微生物群可以通过还原和/或羟化反应进一步转化雷菌醇加合物。在分离后，一些雷菌醇诱导的 HAA 代谢物似乎部分不稳定，使结构鉴定复杂化。

结论

微生物代谢物的形成需要纳入人类健康中对 HAAs 的风险评估考虑因素中。在这项研究中，体外鉴定出了几种微生物代谢物，主要是雷菌醇依赖性的，为未来研究人类微生物 HAA 代谢提供了基础。

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人类粪便微生物群通过雷普汀缀合和进一步转化来代谢食物源杂环芳香胺。

The Human Fecal Microbiota Metabolizes Foodborne Heterocyclic Aromatic Amines by Reuterin Conjugation and Further Transformations.

机构信息

出版信息

SCOPE

METHODS AND RESULTS

CONCLUSION

范围

方法和结果

结论

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