[Melatonin binding site MT3 is QR2: state of the art].

Journal de la Societe de biologie Pub Date : 2007-01-01 DOI:10.1051/jbio:2007011

Jean A Boutin

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引用次数: 8

Abstract

Melatonin is a neurohormone primarily synthesized in the pineal gland at night. It has numerous functions in various pathophysiological situations, including anti-oxidant properties at pharmacological concentrations (1 microM and above). It is believed that melatonin acts through three main targets: two 7TM receptors (MT1 and MT2) and one atypical binding site called MT3. This last binding site has been purified in our laboratory and is designated as quinone reductase 2 (QR2, E.C. 1.10.99.2). This enzyme has several individualistic features. It does not recognize standard nicotinamide derivatives as co-substrates, but rather, it recognizes rare ones such as N-ribosylnicotinamide. Among other features of this enzyme, two are of major importance: 1) experiments from Dr Jaiswal (Houston, Texas) laboratory with QR2-/- mice and with cells derived from them demonstrated that this enzyme is implicated in the toxicological activation of menadione, and thus, may have an activation rather than a detoxification role, as formerly believed, and 2) the polyphenol resveratrol, a molecule with anti-oxidant properties, is a potent inhibitor of QR2 ( approximately 30 nM). This talk will briefly summarize these findings, and will present our working hypotheses, molecular tools and findings on several aspects of the possible relationship between QR2 and melatonin, in particular those suggesting a mechanism for the anti-oxidant activity of melatonin.

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[褪黑激素结合位点MT3是QR2:最新进展]。

褪黑素是一种主要在夜间由松果体合成的神经激素。它在各种病理生理情况下具有许多功能，包括药理学浓度(1微米及以上)的抗氧化特性。人们认为褪黑素通过三个主要靶点起作用:两个7TM受体(MT1和MT2)和一个称为MT3的非典型结合位点。最后一个结合位点是在我们实验室纯化的，命名为醌还原酶2 (QR2, E.C. 1.10.99.2)。这种酶有几个独特的特征。它不识别标准的烟酰胺衍生物作为共底物，而是识别罕见的，如n -核糖素烟酰胺。在该酶的其他特性中，有两个是最重要的:1)Jaiswal博士(休斯顿，德克萨斯州)实验室对QR2-/-小鼠及其衍生细胞的实验表明，该酶与美萘醌的毒理学激活有关，因此，可能具有激活而不是解毒作用，如以前所认为的那样;2)多酚白藜芦醇，一种具有抗氧化特性的分子，是QR2的有效抑制剂(约30 nM)。本讲座将简要总结这些发现，并将介绍我们的工作假设，分子工具和研究结果，在QR2和褪黑激素之间可能的关系的几个方面，特别是那些提出褪黑激素抗氧化活性的机制。

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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Journal de la Societe de biologie

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