Unraveling the molecular mechanism of aqueous extract of Sargentodoxa cuneata against ulcerative colitis from serum metabolomics and bioinformatics perspectives

IF 2.8 3区医学 Q2 BIOCHEMICAL RESEARCH METHODS

Journal of Chromatography B Pub Date : 2024-11-13 DOI:10.1016/j.jchromb.2024.124372

Dengli Wu , Hongmei Wu , Piao Yu , Hongyun Liu , Mei Liu , Junyi Wang , Xiangpei Wang , Feng Xu

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引用次数: 0

Abstract

Symptoms of ulcerative colitis (UC) are like “intestinal carbuncle” in Chinese medicine. The aqueous extract of Sargentodoxa cuneata (AESc) has good therapeutic effects on UC, but the underlying mechanism needs to be further elucidated. The mechanism of AESc against UC was studied based on metabolomics and bioinformatics in mice with UC. Dextran sodium sulfate was applied to induce a mouse model of UC. After the intervention of AESc, the general condition of the animals was recorded, and efficacy-related indicators were measured. Information on serum metabolites was determined. Multivariate analysis combined with bioinformatics methods were used to identify the differential metabolites. Furthermore, “metabolite-target-disease” network was obtained, and differential metabolites of UC were screened, and further analysis of the metabolites were performed. Molecular docking validation was also carried out. AESc improved general conditions such as blood in stool, hair of animals, and weight loss, reduced disease activity index scores and shortening of colon length in mice with UC. A total of 3445 serum metabolites were obtained, and 64 differentiated metabolites of AESc against UC were screened. Enrichment analysis showed that arachidonic acid metabolism, bile secretion, drug metabolism-other enzymes, and tyrosine metabolism were associated with AESc in the treatment of UC. In addition, based on “metabolite-target-disease” network, the serum metabolites cholylleucine, 9,10,13-TriHOME, birabresib, anthramycin methyl ether, trans-hexadec-2-enoyl carnitine, and lucidumol A were found to have the therapeutic potential for UC. Further, 14 core targets were obtained, and lipids and atherosclerosis, rheumatoid arthritis and multiple immune-inflammatory pathways were associated with AESc for the treatment of UC. AESc corrects serum metabolic disturbances in UC mice, and multiple serum metabolites have therapeutic potential for UC. AESc may treat UC by regulating biological processes such as lipid metabolism, amino acid metabolism, thereby restoring normal physiological function of the intestine.

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从血清代谢组学和生物信息学角度揭示马钱子水提取物抗溃疡性结肠炎的分子机制

溃疡性结肠炎（UC）的症状在中医中被称为 "肠痈"。马钱子水提取物（AESc）对溃疡性结肠炎有良好的治疗效果，但其潜在机制有待进一步阐明。本研究以代谢组学和生物信息学为基础，研究了马钱子水提取物对 UC 小鼠的作用机制。应用葡聚糖硫酸钠诱导 UC 小鼠模型。AESc干预后，记录动物的一般状况，并测定疗效相关指标。还测定了血清代谢物的信息。利用多变量分析和生物信息学方法确定了不同的代谢物。此外，还获得了 "代谢物-靶标-疾病 "网络，筛选出了 UC 的差异代谢物，并对代谢物进行了进一步分析。同时还进行了分子对接验证。AESc改善了UC小鼠的一般状况，如便血、动物毛发和体重减轻，降低了疾病活动指数评分，缩短了结肠长度。共获得 3445 个血清代谢物，筛选出 64 个 AESc 抗 UC 的分化代谢物。富集分析表明，花生四烯酸代谢、胆汁分泌、药物代谢-其他酶和酪氨酸代谢与AESc治疗UC相关。此外，基于 "代谢物-靶点-疾病 "网络，发现血清代谢物胆亮氨酸、9,10,13-三羟甲基氨基甲烷、双嘧啶、蒽霉素甲醚、反式-十六-2-烯酰肉碱和露西醇 A 具有治疗 UC 的潜力。此外，还获得了 14 个核心靶点，其中脂质与动脉粥样硬化、类风湿性关节炎和多种免疫炎症通路与 AESc 治疗 UC 相关。AESc 可纠正 UC 小鼠的血清代谢紊乱，多种血清代谢物具有治疗 UC 的潜力。AESc 可通过调节脂质代谢、氨基酸代谢等生物过程来治疗 UC，从而恢复肠道的正常生理功能。

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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来源期刊

Journal of Chromatography B 医学-分析化学

CiteScore

5.60

自引率

3.30%

发文量

306

审稿时长

44 days

期刊介绍： The Journal of Chromatography B publishes papers on developments in separation science relevant to biology and biomedical research including both fundamental advances and applications. Analytical techniques which may be considered include the various facets of chromatography, electrophoresis and related methods, affinity and immunoaffinity-based methodologies, hyphenated and other multi-dimensional techniques, and microanalytical approaches. The journal also considers articles reporting developments in sample preparation, detection techniques including mass spectrometry, and data handling and analysis. Developments related to preparative separations for the isolation and purification of components of biological systems may be published, including chromatographic and electrophoretic methods, affinity separations, field flow fractionation and other preparative approaches. Applications to the analysis of biological systems and samples will be considered when the analytical science contains a significant element of novelty, e.g. a new approach to the separation of a compound, novel combination of analytical techniques, or significantly improved analytical performance.