鉴定作为新型胆碱能抗炎通路激动剂的 O-芳基化羽扇豆苷类痛风关节炎药物

IF 4.5 2区医学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY

Bioorganic Chemistry Pub Date : 2024-08-21 DOI:10.1016/j.bioorg.2024.107716

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引用次数: 0

摘要

Lycodine 生物碱是一种重要的天然产物，具有多种生物效应。在这篇手稿中，我们首次在无金属条件下通过选择性 O-芳基化对 Lycodine 生物碱的 2-吡啶酮分子进行了结构优化，并获得了一系列抗单钠尿酸盐（MSU）诱导的 IL-1β 生成的强效生物活性分子。进一步的研究表明，这些天然产物衍生物可以激活神经免疫调节胆碱能抗炎通路（CAP），从而阻断 NLRP3 炎性体激活的初始阶段。与临床药物氢化可的松和吲哚美辛以及市售的CAP激动剂GTS-21和pnu282987相比，3k和3q对MSU诱导的IL-1β的产生具有更强的抑制作用。同时，与秋水仙碱相比，这些分子对原粒细胞 THP-1 巨噬细胞的细胞毒性较低。这项工作报告了一种直接修饰天然莱卡丁生物碱中 2-吡啶酮分子的简明策略，为发现 CAP 激活剂和痛风性关节炎药物提供了新的框架。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Identification of O-arylated huperzinines as novel cholinergic anti-inflammatory pathway agonists against gout arthritis

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Identification of O-arylated huperzinines as novel cholinergic anti-inflammatory pathway agonists against gout arthritis

Lycodine alkaloids are important natural products with diverse biological effects. In this manuscript, we set out the first structural optimization of the 2-pyridone moiety of Lycodine alkaloid via selective O-arylation under metal-free conditions and obtained a series of potent bioactive molecules against monosodium urate (MSU)-induced IL-1β production. Further investigations demonstrated that these natural product derivatives could activate the neuro-immunomodulatory cholinergic anti-inflammatory pathway (CAP) to block the initial phase of NLRP3 inflammasome activation. Compared with the clinical drugs hydrocortisone and indomethacin, as well as commercially available CAP agonists GTS-21 and pnu282987, 3k and 3q possessed greater potency against MSU-induced IL-1β production. Meanwhile, these molecules possessed less cytotoxicity against promonocytic THP-1 macrophages when compared with colchicine. This work reports a concise strategy for direct modification of 2-pyridone moiety from natural Lycodine alkaloids, and provides novel frameworks for discovering CAP activators and drugs for gout arthritis.

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来源期刊

Bioorganic Chemistry 生物-生化与分子生物学

CiteScore

9.70

自引率

3.90%

发文量

679

审稿时长

31 days

期刊介绍： Bioorganic Chemistry publishes research that addresses biological questions at the molecular level, using organic chemistry and principles of physical organic chemistry. The scope of the journal covers a range of topics at the organic chemistry-biology interface, including: enzyme catalysis, biotransformation and enzyme inhibition; nucleic acids chemistry; medicinal chemistry; natural product chemistry, natural product synthesis and natural product biosynthesis; antimicrobial agents; lipid and peptide chemistry; biophysical chemistry; biological probes; bio-orthogonal chemistry and biomimetic chemistry. For manuscripts dealing with synthetic bioactive compounds, the Journal requires that the molecular target of the compounds described must be known, and must be demonstrated experimentally in the manuscript. For studies involving natural products, if the molecular target is unknown, some data beyond simple cell-based toxicity studies to provide insight into the mechanism of action is required. Studies supported by molecular docking are welcome, but must be supported by experimental data. The Journal does not consider manuscripts that are purely theoretical or computational in nature. The Journal publishes regular articles, short communications and reviews. Reviews are normally invited by Editors or Editorial Board members. Authors of unsolicited reviews should first contact an Editor or Editorial Board member to determine whether the proposed article is within the scope of the Journal.