Selenomethionine supplementation and expression of selenosugars, selenocysteine, and other selenometabolites in rat liver.

IF 2.9 3区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Metallomics Pub Date : 2023-11-02 DOI:10.1093/mtomcs/mfad067
Katarzyna Bierla, Joanna Szpunar, Ryszard Lobinski, Roger A Sunde
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Abstract

Selenomethionine (SeMet) as a methionine analog can be incorporated into protein. In turkeys, we recently found that selenium (Se) as selenite is not metabolized to SeMet but rather to selenosugars (seleno-N-acetyl galactosamine) bound to protein as well as to selenocysteine (Sec) in selenoproteins. To characterize the metabolism of SeMet, we fed rats graded levels of SeMet from 0 to 5 µg Se/g in a Se-deficient diet for 4 wk, and investigated the fate and accumulation of liver Se using high pressure liquid chromatography (HPLC) coupled with Se-specific inductively coupled plasma mass spectrometry (ICP-MS) and molecule specific (Orbitrap MS/MS) detection. Up to 0.24 µg Se/g (Se requirement for maximal glutathione peroxidase activity), Sec accounted for ∼40% of total liver Se whereas SeMet only accounted for 3-11%. Analysis of water-soluble extracts found negligible low molecular weight (LMW) Se species in rats fed 0 and 0.08 µg Se/g, including no SeMet. At 0.24 µg Se/g and above, SeMet accounted for only 10% of LMW Se species, whereas methyl- and glutathionyl-selenosugars accounted for 70% of LMW Se species. Above the Se requirement, SeMet was ∼30% of the proteinaceous amino acids, whereas Sec levels fell to 5% in rats fed 5 µg Se/g as SeMet. Last, considerably less inorganic Se was bound to liver protein with high SeMet as compared to selenite in a parallel study. SeMet is efficiently metabolized and mixes with the common Se metabolite pool, where Se is preferentially incorporated into Sec and Sec-selenoproteins until selenoproteins plateau; with high SeMet intake, Se is increasingly accumulated as LMW selenosugars and as selenosugar-decorated proteins.

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硒代蛋氨酸的补充和硒糖、硒代半胱氨酸和其他硒代代谢产物在大鼠肝脏中的表达。
硒蛋氨酸(SeMet)作为一种蛋氨酸类似物可以被掺入蛋白质中。在火鸡中,我们最近发现,硒(Se)作为亚硒酸盐不会代谢为SeMet,而是代谢为与蛋白质结合的硒糖(硒-N-乙酰基半乳糖胺)以及硒蛋白中的硒半胱氨酸(Sec)。为了表征SeMet的代谢,我们在缺硒饮食中给大鼠喂食0至5μg Se/g的SeMet分级水平,持续4周,并使用HPLC结合Se特异性(ICP-MS)和分子特异性(Orbitrap MS/MS)检测来研究肝脏Se的去向和积累。高达0.24μg Se/g(最大谷胱甘肽过氧化物酶活性所需的Se),Sec占肝脏总Se的约40%,而SeMet仅占3-11%。对水溶性提取物的分析发现,在喂食0和0.08μg Se/g的大鼠中,低分子量(LMW)Se物种可以忽略不计,包括不喂食SeMet。在0.24μg Se/g及以上时,SeMet仅占LMW Se物种的10%,而甲基和戊二亚硫基硒化糖占LMW硒物种的70%。在Se需求量以上,SeMet占蛋白质氨基酸的约30%,而在喂食5μg Se/g SeMet的大鼠中,Sec水平降至5%。最后,在一项平行研究中,与亚硒酸盐相比,具有高SeMet的无机硒与肝脏蛋白结合的量要少得多。SeMet被有效代谢并与常见的Se代谢产物库混合,其中Se优先结合到Sec和Sec硒蛋白中,直到硒蛋白稳定;随着SeMet摄入量的增加,Se以LMW硒糖胶和硒糖胶修饰蛋白的形式积累增加。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Metallomics
Metallomics 生物-生化与分子生物学
CiteScore
7.00
自引率
5.90%
发文量
87
审稿时长
1 months
期刊介绍: Global approaches to metals in the biosciences
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