A cane toad (Rhinella marina) N-methyltransferase converts primary indolethylamines to tertiary psychedelic amines.

The Journal of Biological Chemistry Pub Date : 2023-10-01 Epub Date: 2023-09-09 DOI:10.1016/j.jbc.2023.105231
Xue Chen, Jing Li, Lisa Yu, Francesca Maule, Limei Chang, Jonathan Gallant, David J Press, Sheetal A Raithatha, Jillian M Hagel, Peter J Facchini
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引用次数: 0

Abstract

Psychedelic indolethylamines have emerged as potential medicines to treat several psychiatric pathologies. Natural sources of these compounds include 'magic mushrooms' (Psilocybe spp.), plants used to prepare ayahuasca, and toads. The skin and parotid glands of certain toads accumulate a variety of specialized metabolites including toxic guanidine alkaloids, lipophilic alkaloids, poisonous steroids, and hallucinogenic indolethylamines such as DMT, 5-methoxy-DMT, and bufotenin. The occurrence of psychedelics has contributed to the ceremonial use of toads, particularly among Mesoamerican peoples. Yet, the biosynthesis of psychedelic alkaloids has not been elucidated. Herein, we report a novel indolethylamine N-methyltransferase (RmNMT) from cane toad (Rhinella marina). The RmNMT sequence was used to identify a related NMT from the common toad, Bufo bufo. Close homologs from various frog species were inactive, suggesting a role for psychedelic indolethylamine biosynthesis in toads. Enzyme kinetic analyses and comparison with functionally similar enzymes showed that recombinant RmNMT was an effective catalyst and not product inhibited. The substrate promiscuity of RmNMT enabled the bioproduction of a variety of substituted indolethylamines at levels sufficient for purification, pharmacological screening, and metabolic stability assays. Since the therapeutic potential of psychedelics has been linked to activity at serotonergic receptors, we evaluated binding of derivatives at 5-HT1A and 5-HT2A receptors. Primary amines exhibited enhanced affinity at the 5-HT1A receptor compared with tertiary amines. With the exception of 6-substituted derivatives, N,N-dimethylation also protected against catabolism by liver microsomes.

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甘蔗蟾蜍(Rhinella marina)N-甲基转移酶将初级吲哚乙胺转化为叔迷幻胺。
迷幻性吲哚乙胺已成为治疗几种精神疾病的潜在药物。这些化合物的天然来源包括“神奇蘑菇”(Psilocybe spp.)、用于制备阿亚瓦斯卡的植物和蟾蜍。某些蟾蜍的皮肤和腮腺积累了各种特殊的代谢产物,包括有毒的胍生物碱、亲脂性生物碱、有毒的类固醇和致幻吲哚乙胺,如DMT、5-甲氧基-DMT和蟾蜍精。迷幻药的出现促成了蟾蜍的仪式使用,尤其是在中美洲人中。然而,迷幻生物碱的生物合成尚未阐明。在此,我们报道了一种来自甘蔗蟾蜍(Rhinella marina)的新型吲哚乙胺N-甲基转移酶(RmNMT)。RmNMT序列用于从常见蟾蜍蟾蜍中鉴定相关的NMT。来自不同青蛙物种的紧密同源物是不活跃的,这表明蟾蜍体内的吲哚乙胺生物合成具有迷幻作用。酶动力学分析和与功能相似的酶的比较表明,重组RmNMT是一种有效的催化剂,不会抑制产物。RmNMT的底物混杂性使其能够生物生产各种取代的吲哚乙胺,其水平足以进行纯化、药理学筛选和代谢稳定性测定。由于迷幻药的治疗潜力与5-羟色胺能受体的活性有关,我们评估了衍生物与5-HT1A和5-HT2A受体的结合。与叔胺相比,伯胺在5-HT1A受体上表现出增强的亲和力。除了6-取代的衍生物外,N,N-二甲基化也可防止肝微粒体的分解代谢。
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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