三甲胺（TMA）氧化的体内变异性部分由FMO3基因的多态性介导。

In vivo variability of TMA oxidation is partially mediated by polymorphisms of the FMO3 gene.

作者信息

Lambert D M, Mamer O A, Akerman B R, Choinière L, Gaudet D, Hamet P, Treacy E P

机构信息

Biochemical Genetics, Montreal Children's Hospital, Montreal, Quebec, Canada.

出版信息

Mol Genet Metab. 2001 Jul;73(3):224-9. doi: 10.1006/mgme.2001.3189.

DOI:10.1006/mgme.2001.3189

PMID:11461189

Abstract

Trimethylaminuria (TMAU) results from an accumulation of an excessive amount of unoxidized trimethylamine that is excreted in urine and body secretions. Mutations of the flavin-containing monooxygenase 3 (FMO3) gene (a hepatic phase I drug-metabolizing enzyme) account for the severe recessively encoded form of this condition. We have previously described a number of FMO3 polymorphisms which in vitro exhibit reduced substrate affinity for several FMO substrates. Here we show that three prevalent polymorphisms (E158K, V257M, and E308G) inherited in particular combinations confer a slight decrease in TMA oxidation under normal physiological conditions, which may be clinically "silent." With the use of substrate loading or with the interaction of other known modulators of FMO3 activity such as hormonal influences, these genotypes may predispose to mild TMAU.

摘要

三甲胺尿症（TMAU）是由于大量未氧化的三甲胺积聚，这些三甲胺通过尿液和身体分泌物排出。含黄素单加氧酶3（FMO3）基因（一种肝脏I相药物代谢酶）的突变导致了这种疾病的严重隐性遗传形式。我们之前描述了一些FMO3多态性，这些多态性在体外对几种FMO底物表现出降低的底物亲和力。在这里，我们表明，以特定组合遗传的三种常见多态性（E158K、V257M和E308G）在正常生理条件下会使TMA氧化略有降低，这在临床上可能是“无症状的”。通过使用底物负荷或与其他已知的FMO3活性调节剂相互作用，如激素影响，这些基因型可能易患轻度TMAU。

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三甲胺（TMA）氧化的体内变异性部分由FMO3基因的多态性介导。

In vivo variability of TMA oxidation is partially mediated by polymorphisms of the FMO3 gene.

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