褪黑激素的事实:没有证据表明褪黑激素是生命系统中的自由基清除剂。

IF 8.3 1区 医学 Q1 ENDOCRINOLOGY & METABOLISM Journal of Pineal Research Pub Date : 2023-12-26 DOI:10.1111/jpi.12926
Jean A. Boutin, Maxime Liberelle, Saïd Yous, Gilles Ferry, Françoise Nepveu
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引用次数: 0

摘要

褪黑素是一种小型天然化合物,被称为神经激素,主要在动物的松果体中合成。它的主要作用是在光线的监控下掌握人体的时钟。换句话说,它将有关白天和黑夜的信息传递给外围器官,没有它,外围器官就无法 "知道 "人体处于昼夜节律的哪个阶段。据报道,褪黑素除了主要掌握昼夜节律和年节律外,还是一种自由基清除剂和/或抗氧化剂。由于自由基清除剂是能够中和活性氧等高活性有毒物质的化学物种,尽管文献中已有大量报道,但人们仍希望将这一特性转移到生命系统中。在本评论中,我们将让读者重新记住自由基清除剂这一概念,并回顾褪黑激素可能是体内自由基清除剂的证据,而我们在此仅略微讨论了褪黑激素是一种分子抗氧化剂这一事实,这一特征值得单独进行回顾。我们得出以下四点结论(i)褪黑激素在细胞系统中是一种清除剂的证据是压倒性的,不容置疑;(ii)在活体(动物)系统中移植这种特性(a)理论上是不可能的,(b)在文献报道的任何系统中都没有得到证实,在大多数情况下,褪黑激素的作用延迟时间超过几个小时,因此表明可能会诱导细胞酶的抗氧化防御作用;(iv) 我们还收集了关于褪黑激素在非细胞系统中清除自由基能力的重要描述,这种能力现已得到证实,并为许多其他双键分子所共享。最后,我们简要讨论了导致这种描述的科学或其他原因,以及这种说法在研究、生理学、病理学方面的后果,但最令人不安的是在治疗学方面的后果,因为这关系到大量的资金、希望和病人的福祉。
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Melatonin facts: Lack of evidence that melatonin is a radical scavenger in living systems

Melatonin is a small natural compound, so called a neuro-hormone that is synthesized mainly in pineal gland in animals. Its main role is to master the clock of the body, under the surveillance of light. In other words, it transfers the information concerning night and day to the peripheral organs which, without it, could not “know” which part of the circadian rhythm the body is in. Besides its main circadian and circannual rhythms mastering, melatonin is reported to be a radical scavenger and/or an antioxidant. Because radical scavengers are chemical species able to neutralize highly reactive and toxic species such as reactive oxygen species, one would like to transfer this property to living system, despite impossibilities already largely reported in the literature. In the present commentary, we refresh the memory of the readers with this notion of radical scavenger, and review the possible evidence that melatonin could be an in vivo radical scavenger, while we only marginally discuss here the fact that melatonin is a molecular antioxidant, a feature that merits a review on its own. We conclude four things: (i) the evidence that melatonin is a scavenger in acellular systems is overwhelming and could not be doubted; (ii) the transposition of this property in living (animal) systems is (a) theoretically impossible and (b) not proven in any system reported in the literature where most of the time, the delay of the action of melatonin is over several hours, thus signing a probable induction of cellular enzymatic antioxidant defenses; (iii) this last fact needs a confirmation through the discovery of a nuclear factor—a key relay in induction processes—that binds melatonin and is activated by it and (iv) we also gather the very important description of the radical scavenging capacity of melatonin in acellular systems that is now proven and shared by many other double bond-bearing molecules. We finally discussed briefly on the reason—scientific or else—that led this description, and the consequences of this claim, in research, in physiology, in pathology, but most disturbingly in therapeutics where a vast amount of money, hope, and patient bien-être are at stake.

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来源期刊
Journal of Pineal Research
Journal of Pineal Research 医学-内分泌学与代谢
CiteScore
17.70
自引率
4.90%
发文量
66
审稿时长
1 months
期刊介绍: The Journal of Pineal Research welcomes original scientific research on the pineal gland and melatonin in vertebrates, as well as the biological functions of melatonin in non-vertebrates, plants, and microorganisms. Criteria for publication include scientific importance, novelty, timeliness, and clarity of presentation. The journal considers experimental data that challenge current thinking and welcomes case reports contributing to understanding the pineal gland and melatonin research. Its aim is to serve researchers in all disciplines related to the pineal gland and melatonin.
期刊最新文献
Melatonin Ameliorates Cadmium-Induced Liver Fibrosis Via Modulating Gut Microbiota and Bile Acid Metabolism Issue Information Disruption of Melatonin Signaling Leads to Lipids Accumulation in the Liver of Melatonin Proficient Mice Melatonin Protects Against Cocaine-Induced Blood−Brain Barrier Dysfunction and Cognitive Impairment by Regulating miR-320a-Dependent GLUT1 Expression Timing Matters: Late, but Not Early, Exercise Training Ameliorates MASLD in Part by Modulating the Gut-Liver Axis in Mice
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