脂质假靶向代谢组学与氨基酸靶向代谢组学的整合研究揭示了黄连皂甙对湿热型实验性结肠炎的治疗机制

IF 4.7 2区 医学 Q1 CHEMISTRY, MEDICINAL Drug Design, Development and Therapy Pub Date : 2024-11-12 eCollection Date: 2024-01-01 DOI:10.2147/DDDT.S476494
Qi Wu, Kexin Liu, Ruijuan Hou, Xingxing Wu, Xiaoyu Ruan, Mao Wang, Zhiting Sun, Lingchang Meng, Guoliang Dai, Changyin Li, Jing Wu, Genglin Mu
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And the levels of the metabolism-related proteins (sPLA2, cPLA2), S100A8/9, Arg-1, and cytokines were detected by enzyme-linked immunosorbent assay (ELISA) kit. To investigate lipids and amino acids which closely associated with the IBD and IBD-DH, lipid pseudotargeted metabolomics with UHPLC-TQ/MS analysis method, as well as targeted quantitative amino acid analysis were performed.</p><p><strong>Results: </strong>Our data showed that RPTS (50 mg/kg) and PN (20 mg/kg) significantly ameliorated the severity of TNBS-induced colitis and downregulated the levels of circulating proinflammatory cytokines. Compared with RNC group, lipid pseudotargeted metabolomics demonstrated that glycerophospholipids, sphingolipids, carnitine, and glycerolipids were the four most perturbed lipid classes, and amino acids targeted metabolomics demonstrated that serine, N-acetylneuraminic acid, histidine, proline, taurine, and kynurenine changed significantly in DAT group . 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引用次数: 0

摘要

目的:炎症性肠病(IBD)是一种影响人体新陈代谢和炎症反应的严重疾病。从中医角度看,湿热证是 IBD 的主要证候之一。湿热证(IBD-DH)是一种中国著名的中药,又名豨莶草,可用于治疗 IBD 湿热证。然而,黄连对 IBD-DH 的潜在机制和影响仍存在不确定性:方法:模型组(DAT)和给药组(黄连总皂苷(RPTS)和潘生丁(PN))的大鼠在高温高湿环境下,以高脂肪、高糖饮食结合 2,4,6-三硝基苯磺酸(TNBS)建立实验性湿热型结肠炎模型,正常对照组(RNC)大鼠在常温常湿环境下给予正常饮食。湿热对照组(DNC)的条件与DAT相同,不含TNBS。采用苏木精-伊红(HE)染色法观察大鼠结直肠的组织病理学形态。采用实时定量 PCR 分析(RT-qPCR)评估代谢相关基因(磷脂酶 A2(sPLA2、cPLA2)和磷脂酰乙醇胺 N-甲基转移酶(PEMT))的表达。酶联免疫吸附试验(ELISA)试剂盒检测了代谢相关蛋白(sPLA2、cPLA2)、S100A8/9、Arg-1 和细胞因子的水平。为了研究与 IBD 和 IBD-DH 密切相关的脂质和氨基酸,我们采用 UHPLC-TQ/MS 分析方法进行了脂质假靶向代谢组学研究,并进行了靶向氨基酸定量分析:结果表明:RPTS(50 mg/kg)和PN(20 mg/kg)能明显改善TNBS诱导的结肠炎的严重程度,并能降低循环中促炎细胞因子的水平。与RNC组相比,脂质假靶向代谢组学显示,甘油磷脂、鞘磷脂、肉碱和甘油脂是受扰动最大的四类脂质;氨基酸靶向代谢组学显示,丝氨酸、N-乙酰神经氨酸、组氨酸、脯氨酸、牛磺酸和犬尿氨酸在DAT组发生了显著变化。相关分析表明,大多数差异代谢物与促炎细胞因子之间存在密切联系。RPTS 和 PN 都能调节甘油磷脂代谢和鞘脂代谢。然而,它们对氨基酸的调节作用并不明显。RPTS 和 PN 有可能调节 sPLA2、cPLA2 和 PEMT:这些结果表明,RPTS(50 毫克/千克)和 PN(20 毫克/千克)能有效缓解大鼠湿热型结肠炎,影响细胞因子,改变脂质代谢,但对氨基酸代谢无明显调节作用。
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Integrative Lipid Pseudotargeted Metabolomics and Amino Acids Targeted Metabolomics Unravel the Therapeutic Mechanism of Rhizoma Paridis Saponins on Experimental Colitis of Damp-Heat Type.

Purpose: Inflammatory bowel disease (IBD) is a serious disease that affects the metabolism and inflammatory responses of human beings. From the perspective of traditional Chinese medicine, damp-heat syndrome is one of the main syndromes of IBD. Rhizoma Paridis, also known as the root of Paris polyphylla, a well-known herbal medicine used in China, is used to treat IBD with damp-heat syndrome (IBD-DH). However, uncertainty still exists regarding the underlying mechanisms and the impact of Rhizoma Paridis on IBD-DH.

Methods: The rats in the model (DAT) and medication administration (Rhizoma Paridis total saponins (RPTS) and Pennogenin (PN)) groups were given a high temperature and high humidity environment, high fat and high sugar diet combined with 2,4,6-trinitrobenzene sulfonic acid (TNBS) to establish the model of experimental colitis of damp-heat type, and the normal control group (RNC) rats were given a normal diet at normal temperature and humidity. Damp-heat control group (DNC) was set with the same condition as DAT without TNBS. Hematoxylin-Eosin (HE) staining was used to observe the histopathological morphology of the rat colorectum. The expression of the metabolism-related genes (Phospholipase A2 (sPLA2, cPLA2), and phosphatidylethanolamine N-methyltransferase (PEMT)) was assessed by using real-time quantitative PCR analysis (RT-qPCR). And the levels of the metabolism-related proteins (sPLA2, cPLA2), S100A8/9, Arg-1, and cytokines were detected by enzyme-linked immunosorbent assay (ELISA) kit. To investigate lipids and amino acids which closely associated with the IBD and IBD-DH, lipid pseudotargeted metabolomics with UHPLC-TQ/MS analysis method, as well as targeted quantitative amino acid analysis were performed.

Results: Our data showed that RPTS (50 mg/kg) and PN (20 mg/kg) significantly ameliorated the severity of TNBS-induced colitis and downregulated the levels of circulating proinflammatory cytokines. Compared with RNC group, lipid pseudotargeted metabolomics demonstrated that glycerophospholipids, sphingolipids, carnitine, and glycerolipids were the four most perturbed lipid classes, and amino acids targeted metabolomics demonstrated that serine, N-acetylneuraminic acid, histidine, proline, taurine, and kynurenine changed significantly in DAT group . Correlation analyses showed tight associations between most of differential metabolites and proinflammatory cytokines. RPTS and PN both regulated glycerophospholipid metabolism and sphingolipid metabolism. However, both of them did not have a significant effect on amino acid modulation. RPTS and PN potentially regulated sPLA2, cPLA2, and PEMT.

Conclusion: These results showed that RPTS (50 mg/kg) and PN (20 mg/kg) effectively alleviated rats' colitis of damp-heat type, affected cytokines, and altered lipid metabolism without significant modulation on amino acid metabolism.

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来源期刊
Drug Design, Development and Therapy
Drug Design, Development and Therapy CHEMISTRY, MEDICINAL-PHARMACOLOGY & PHARMACY
CiteScore
9.00
自引率
0.00%
发文量
382
审稿时长
>12 weeks
期刊介绍: Drug Design, Development and Therapy is an international, peer-reviewed, open access journal that spans the spectrum of drug design, discovery and development through to clinical applications. The journal is characterized by the rapid reporting of high-quality original research, reviews, expert opinions, commentary and clinical studies in all therapeutic areas. Specific topics covered by the journal include: Drug target identification and validation Phenotypic screening and target deconvolution Biochemical analyses of drug targets and their pathways New methods or relevant applications in molecular/drug design and computer-aided drug discovery* Design, synthesis, and biological evaluation of novel biologically active compounds (including diagnostics or chemical probes) Structural or molecular biological studies elucidating molecular recognition processes Fragment-based drug discovery Pharmaceutical/red biotechnology Isolation, structural characterization, (bio)synthesis, bioengineering and pharmacological evaluation of natural products** Distribution, pharmacokinetics and metabolic transformations of drugs or biologically active compounds in drug development Drug delivery and formulation (design and characterization of dosage forms, release mechanisms and in vivo testing) Preclinical development studies Translational animal models Mechanisms of action and signalling pathways Toxicology Gene therapy, cell therapy and immunotherapy Personalized medicine and pharmacogenomics Clinical drug evaluation Patient safety and sustained use of medicines.
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