坎他啶的活性酸酐与生物胺的共价结合。

IF 4.4 3区 医学 Q1 PHARMACOLOGY & PHARMACY Drug Metabolism and Disposition Pub Date : 2024-07-16 DOI:10.1124/dmd.123.001637
Yaya Fan, Lin Chen, Qiuyi Jing, Xiaoli Li, Hong Pan, Chao Fang, Jianyong Zhang, Fuguo Shi
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引用次数: 0

摘要

Cantharidin 是一种来自鞘翅目甲虫的萜类化合物。Cantharidin 曾被用于治疗软疣和某些类型的肿瘤。胭脂虫酰胺有剧毒,世界各地都有胭脂虫酰胺中毒和死亡病例的报道。tharidin引起中毒的机制尚不清楚。胭脂虫啶含有酸酐,可能会与生物胺发生反应。本研究旨在考察thantharidin与亲核物的化学反应性,并描述thantharidin在体外和小鼠体内与生物胺加合物的特征。在本研究中,在生理条件下,坎他立定分别与游离氨基酸、模拟肽或含胺化合物孵育形成了两种类型的共轭物。酰胺型共轭物是由坎他立定酸酐与生物胺的伯氨基结合产生的。酰亚胺型共轭物是由酰胺型共轭物脱水和环化生成的。利用高分辨质谱对共轭物的结构进行了表征。我们分别利用 L-(ε)15N-赖氨酸、L-赖氨酸-15N2 和溴标记肼引入 14N/15N 和 79Br/81Br 同位素特征来确认共轭物的形成。亚胺共轭物的结构也通过核磁共振实验得到了证实。此外,还在小鼠肝脏和尿液中检测到了坎他立定与氨基酸或 N-乙酰基赖氨酸的酰胺和亚胺共轭物。在小鼠肝脏中发现了坎他利定对赖氨酸残基蛋白质的修饰作用。泛 P450 抑制剂 1-aminobenzotriazole 能显著增加尿液中的tharidin-N-乙酰-赖氨酸共轭物,而减少 cantharidin 代谢物。总之,胭脂虫啶酸酐可与生物胺非酶共价结合,这有助于更好地了解非酶反应性在胭脂虫啶中毒中的作用。意义说明 可他利定的酸酐分子可与生物胺的伯氨基非酶促地共价结合。坎他啶酸酐与氨基酸、模拟肽和蛋白质赖氨酸残基的伯氨基共价结合后生成了酰胺和亚胺共轭物。利用同位素标记试剂和核磁共振实验,通过 14N/15N 和 79Br/81Br 同位素特征确认了共轭物的结构。这项研究将有助于了解非酶反应性在胭脂虫酰胺中毒中的作用。
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Covalent Binding of Reactive Anhydride of Cantharidin to Biological Amines.

Cantharidin is a terpenoid from coleoptera beetles. Cantharidin has been used to treat molluscum contagiosum and some types of tumors. Cantharidin is highly toxic, and cantharidin poisoning and fatal cases have been reported worldwide. The mechanisms underlying cantharidin-induced toxicity remain unclear. Cantharidin contains anhydride, which may react with biologic amines. This study aimed to examine the chemical reactivity of cantharidin toward nucleophiles and characterize adducts of cantharidin with biologic amines in vitro and in mice. Here two types of conjugates were formed in the incubation of cantharidin under physiologic conditions with free amino acids, a mimic peptide, or amine-containing compounds, respectively. Amide-type conjugates were produced by the binding of cantharidin anhydride with the primary amino group of biologic amines. Imide-type conjugates were generated from the dehydration and cyclization of amide-type conjugates. The structure of the conjugates was characterized by using high-resolution mass spectrometry. We introduced the 14N/15N and 79Br/81Br isotope signatures to confirm the formation of conjugates using L-(ε)15N-lysine, L-lysine-15N2, and bromine-tagged hydrazine, respectively. The structure of imide conjugate was also confirmed by nuclear magnetic resonance experiments. Furthermore, the amide and imide conjugates of cantharidin with amino acids or N-acetyl-lysine were detected in mouse liver and urine. Cantharidin was found to modify lysine residue proteins in mouse liver. Pan-cytochrome P450 inhibitor 1-aminobenzotriazole significantly increased the urine cantharidin-N-acetyl-lysine conjugates, whereas it decreased cantharidin metabolites. In summary, cantharidin anhydride can covalently bind to biologic amines nonenzymatically, which facilitates a better understanding of the role of nonenzymatic reactivity in cantharidin poisoning. SIGNIFICANCE STATEMENT: Anhydride moiety of cantharidin can covalently bind to the primary amino group of biological amines nonenzymatically. Amide and imide conjugates were generated after the covalent binding of cantharidin anhydride with the primary amino groups of amino acids, a mimic peptide, and protein lysine residues. The structure of conjugates was confirmed by 14N/15N and 79Br/81Br isotope signatures using isotope-tagged reagents and nuclear magnetic resonance experiments. This study will facilitate the understanding of the role of nonenzymatic reactivity in cantharidin poisoning.

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来源期刊
CiteScore
6.50
自引率
12.80%
发文量
128
审稿时长
3 months
期刊介绍: An important reference for all pharmacology and toxicology departments, DMD is also a valuable resource for medicinal chemists involved in drug design and biochemists with an interest in drug metabolism, expression of drug metabolizing enzymes, and regulation of drug metabolizing enzyme gene expression. Articles provide experimental results from in vitro and in vivo systems that bring you significant and original information on metabolism and disposition of endogenous and exogenous compounds, including pharmacologic agents and environmental chemicals.
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