Synthesis and Biological Evaluation of Isoaurone Derivatives as Anti-inflammatory Agents.

IF 2.3 3区 化学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Chemistry & Biodiversity Pub Date : 2024-10-15 DOI:10.1002/cbdv.202402073
Xueqian Bai, Chao Ye, Zhe Liu, Zhijiang Zhou, Tianyi Zhang
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Abstract

Twenty-eight isoaurone derivatives with 1,2,4-triazole moieties were synthesized using a fragment-based design strategy, and their anti-inflammatory activity was investigated. The anti-inflammatory effect of the most active derivative, 14e (41.82 %), was dose-dependent and higher than the values for celecoxib (31.82 %). Compound 14e was almost non-toxic and inhibited different concentrations of nitric oxide (NO). The western blotting results demonstrated that cyclooxygenase-2 (COX-2) expression was elevated when the macrophages were exclusively treated with LPS. However, compound 14e effectively suppressed the LPS-induced COX-2 upregulation. Subsequent investigation revealed that 14e is a promising compound capable of inhibiting the downstream signaling of COX-2. With the above interesting biological profile, molecular 14e could be a promising lead to develop novel anti-inflammatory agents.

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作为抗炎剂的异贝壳杉酮衍生物的合成与生物学评价。
采用基于片段的设计策略合成了28种具有1,2,4-三唑分子的异乌头酮衍生物,并研究了它们的抗炎活性。活性最强的衍生物 14e(41.82%)的抗炎效果与剂量有关,高于塞来昔布(31.82%)的抗炎效果。化合物 14e 几乎无毒,并能抑制不同浓度的一氧化氮(NO)。Western 印迹检测结果表明,当巨噬细胞只接受 LPS 处理时,环氧化酶-2(COX-2)的表达升高。然而,化合物 14e 能有效抑制 LPS 诱导的 COX-2 上调。随后的研究发现,14e 是一种有潜力的化合物,能够抑制 COX-2 的下游信号传导。鉴于上述有趣的生物学特征,分子 14e 有望成为开发新型抗炎药物的先导。
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来源期刊
Chemistry & Biodiversity
Chemistry & Biodiversity 环境科学-化学综合
CiteScore
3.40
自引率
10.30%
发文量
475
审稿时长
2.6 months
期刊介绍: Chemistry & Biodiversity serves as a high-quality publishing forum covering a wide range of biorelevant topics for a truly international audience. This journal publishes both field-specific and interdisciplinary contributions on all aspects of biologically relevant chemistry research in the form of full-length original papers, short communications, invited reviews, and commentaries. It covers all research fields straddling the border between the chemical and biological sciences, with the ultimate goal of broadening our understanding of how nature works at a molecular level. Since 2017, Chemistry & Biodiversity is published in an online-only format.
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