高蛋氨酸血症的生化和毒理学意义：新的见解和临床相关性。

The biochemical and toxicological significance of hypermethionemia: new insights and clinical relevance.

机构信息

University of Wisconsin-Madison, Department of Nutritional Sciences, Madison, WI 53706, USA.

出版信息

Expert Opin Drug Metab Toxicol. 2010 Nov;6(11):1333-46. doi: 10.1517/17425255.2010.522177. Epub 2010 Sep 28.

DOI:10.1517/17425255.2010.522177

PMID:20874374

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2957509/

Abstract

IMPORTANCE OF THE FIELD

Disrupted l-methionine (Met) metabolism can lead to hepatic, neurological and cardiovascular dysfunction in humans. Aberrant methyl group flux likely contributes to the development of these pathologies, but when patients also become hypermethionemic, additional toxicological mechanisms may be relevant.

AREAS COVERED IN THIS REVIEW

Following a discussion of the causes of hypermethionemia in humans, evidence for the toxicological roles and clinical significance of the Met transmethylation (TM), transamination (TA) and sulfoxidation (SO) pathways will be presented.

WHAT THE READER WILL GAIN

Recent data from freshly isolated mouse hepatocytes (FIMHs) confirmed previous in vivo results in rodents that Met TM is a detoxification pathway while Met TA leads to toxicity. Gender-related differences in Met accumulation and metabolism in FIMHs correlated with gender differences in toxicity. Data obtained from FIMHs also implicated Met SO in Met metabolism and toxicity. Currently, little is known about the mechanisms and biological significance of Met sulfoxidation in humans.

TAKE HOME MESSAGE

In hypermethionemic patients, clinical and dietary interventions should focus on increasing Met TM and decreasing Met TA and SO. Novel biomarkers of hypermethionemia in humans that correlate with pathological end points are needed to better understand the impact of the condition.

摘要

重要性领域

在人类中，L-蛋氨酸（Met）代谢紊乱可导致肝、神经和心血管功能障碍。异常的甲基流可能导致这些病理的发生，但当患者出现高蛋氨酸血症时，可能会涉及到其他毒性机制。

本综述涵盖的领域

在讨论了人类高蛋氨酸血症的原因之后，将介绍 Met 转甲基（TM）、转氨基（TA）和磺氧化（SO）途径的毒性作用和临床意义的证据。

读者将获得的收益

最近从新鲜分离的小鼠肝细胞（FIMHs）中获得的数据证实了先前在啮齿动物中的体内结果，即 Met TM 是一种解毒途径，而 Met TA 则导致毒性。FIMHs 中 Met 积累和代谢的性别差异与毒性的性别差异相关。从 FIMHs 获得的数据还表明 Met SO 参与了 Met 代谢和毒性。目前，人们对人类 Met 磺氧化的机制和生物学意义知之甚少。

重要信息

在高蛋氨酸血症患者中，临床和饮食干预应侧重于增加 Met TM，减少 Met TA 和 SO。需要了解与病理终点相关的高蛋氨酸血症的新型人类生物标志物，以更好地理解该病症的影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9b96/2957509/3fa9af7bafd5/nihms235390f1.jpg

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