核黄素类化合物具有NAD(P)H依赖的类醌氧化还原酶活性。

IF 2 4区 医学 Q3 NUTRITION & DIETETICS
Midori Nagase, Miku Sakamoto, Sakiko Amekura, Sayaka Akiba, Misato Kashiba, Kenji Yokoyama, Yorihiro Yamamoto, Akio Fujisawa
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引用次数: 0

摘要

NAD(P) h依赖性醌氧化还原酶(NQO)是生物机体和细胞抗氧化应激的必需酶。NQO利用NAD(P)H作为电子供体还原辅酶Q (CoQ)。在本研究中,我们从凝胶过滤分离的大鼠肝脏匀浆中寻找辅酶Q10还原活性。除了含有NQO的大分子量组分外,在低分子量组分中也检测到CoQ10还原活性。此外,传统的NQO1 (DT diaphorase)抑制剂dicumarol没有抑制还原,而槲皮素有,这表明活性不是由NQO1引起的。进一步纯化后,nadh依赖性辅酶q10还原化合物被鉴定为核黄素。核黄素是其他黄素类化合物如FAD和FMN的活性取代基。在NADH存在的情况下,这些黄素化合物不仅降低了辅酶q同源物,还降低了维生素K同源物。其机制推测如下:NADH将黄素化合物还原为相应的还原形式,随后,还原的黄素化合物立即还原生物醌。此外,黄素- nadh系统减少了与皂苷B结合的CoQ10,皂苷B在体内被认为是CoQ转移蛋白。因此,这种依赖黄素的辅酶q10还原可能在水相中起作用,如细胞质和体液。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Riboflavin compounds show NAD(P)H dependent quinone oxidoreductase-like quinone reducing activity.

Riboflavin compounds show NAD(P)H dependent quinone oxidoreductase-like quinone reducing activity.

Riboflavin compounds show NAD(P)H dependent quinone oxidoreductase-like quinone reducing activity.

Riboflavin compounds show NAD(P)H dependent quinone oxidoreductase-like quinone reducing activity.

NAD(P)H-dependent quinone oxidoreductase (NQO) is an essential enzyme in living organisms and cells protecting them from oxidative stress. NQO reduces coenzyme Q (CoQ) using NAD(P)H as an electron donor. In the present study, we searched for coenzyme Q10 reducing activity from fractions of gel filtration-fractionated rat liver homogenate. In addition to the large-molecular-weight fraction containing NQO, CoQ10 reducing activity was also detected in a low-molecular-weight fraction. Furthermore, dicumarol, a conventional inhibitor of NQO1 (DT diaphorase), did not inhibit the reduction but quercetin did, suggesting that the activity was not due to NQO1. After further purification, the NADH-dependent CoQ10-reducing compound was identified as riboflavin. Riboflavin is an active substituent of other flavin compounds such as FAD and FMN. These flavin compounds also reduced not only CoQ homologues but also vitamin K homologues in the presence of NADH. The mechanism was speculated to work as follows: NADH reduces flavin compounds to the corresponding reduced forms, and subsequently, the reduced flavin compounds immediately reduce bio-quinones. Furthermore, the flavin-NADH system reduces CoQ10 bound with saposin B, which is believed to function as a CoQ transfer protein in vivo. This flavin-dependent CoQ10 reduction, therefore, may function in aqueous phases such as the cell cytosol and bodily fluids.

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来源期刊
CiteScore
4.30
自引率
8.30%
发文量
57
审稿时长
6-12 weeks
期刊介绍: Journal of Clinical Biochemistry and Nutrition (JCBN) is an international, interdisciplinary publication encompassing chemical, biochemical, physiological, pathological, toxicological and medical approaches to research on lipid peroxidation, free radicals, oxidative stress and nutrition. The Journal welcomes original contributions dealing with all aspects of clinical biochemistry and clinical nutrition including both in vitro and in vivo studies.
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