评估 Crateva religiosa 树皮提取物对脂肪生成的分子调控作用:通过 3T3-L1 细胞系管理高脂血症的硅学和体外方法。

IF 2.2 4区 医学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY
Monika Singh, Monika Sachdeva, Nitin Kumar
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引用次数: 0

摘要

目的:本研究旨在确定蟋蟀树皮(Crateva religiosa bark,CRB)的植物成分,并评估具有生物活性的蟋蟀树皮提取物通过防止脂肪细胞分化和脂肪生成的降脂作用:在进行了初步的植物化学成分筛选后,通过DPPH(2, 2-二苯基-1-苦基肼)试验测定了CRB提取物的抗氧化活性。选择了 CRB 的乙酸乙酯提取物(CREAE)和乙醇提取物(CRETE)进行色谱评估:方法:通过 PKCMS 软件平台进行分子对接,分析 CRB 的抗高血脂潜力。此外,还通过体外磺胺 B 检测和 Western 印迹法对 3T3-L1 细胞系进行了研究,以确认其对脂肪细胞分化和脂肪生成的抑制作用:CREAE和CRETE中的总酚含量估计分别为29.47和81.19微克/毫克,相当于没食子酸。在 CREAE 和 CRETE 中,总黄酮含量分别为 8.78 和 49.08 μg/mg,相当于槲皮素。CRETE 表现出更强的清除活性,其 IC50 值为 61.05 μg/ mL。气相色谱-质谱分析证实,CRETE 中含有三种生物活性分子:豆甾醇、γ-谷甾醇和羽扇豆醇。分子对接研究预测,这些生物活性分子与负责脂质代谢的 HMG-CoA 还原酶、PPARγ 和 CCAAT/EBP 相互作用。在体外,磺胺多巴胺 B 试验表明,CRETE 会依赖剂量降低细胞的分化和活力。使用 "油红 O "进行细胞染色显示,CRETE 处理过的细胞系中脂质含量降低。CRETE明显抑制了PPARγ和CCAAT/EBP的诱导表达,通过Western印迹法测定蛋白表达:结论:CRETE 对 3T3-L1 细胞脂质代谢的影响可能是治疗高脂血症的一种新方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Assessment of the Anti-Adipogenic Effect of Crateva religiosa Bark Extract for Molecular Regulation of Adipogenesis: In Silico and In vitro Approaches for Management of Hyperlipidemia Through the 3T3-L1 Cell Line.

Aim: This study aimed to determine the phytoconstituents of Crateva religiosa bark (CRB) and evaluate the hypolipidemic effect of bioactive CRB extract by preventing adipocyte differentiation and lipogenesis.

Background: After performing the preliminary phytochemicals screening, the antioxidant activity of CRB extracts was determined through a DPPH (2, 2-diphenyl-1-picrylhydrazyl) assay. Ethyl acetate extract (CREAE) and ethanol extract (CRETE) of CRB were selected for chromatographic evaluation.

Method: The antihyperlipidemic potential was analyzed by molecular docking through the PKCMS software platform. Further, a 3T3-L1 cell line study via In vitro sulforhodamine B assay and western blotting was performed to confirm the prevention of adipocyte differentiation and lipogenesis Results: The total phenolic contents in CREAE and CRETE were estimated as 29.47 and 81.19 μg/mg equivalent to gallic acid, respectively. The total flavonoid content was found to be 8.78 and 49.08 μg/mg, equivalent to quercetin in CREAE and CRETE, respectively. CRETE exhibited greater scavenging activity with the IC50 value of 61.05 μg/ mL. GC-MS analysis confirmed the presence of three bioactive molecules, stigmasterol, gamma sitosterol, and lupeol, in CRETE. Molecular docking studies predicted that the bioactive molecules interact with HMG-CoA reductase, PPARγ, and CCAAT/EBP, which are responsible for lipid metabolism. In vitro, Sulforhodamine B assays revealed that CRETE dose-dependently reduced cell differentiation and viability. Cellular staining using 'Oil Red O' revealed a decreased lipid content in the CRETE-treated cell lines. CRETE significantly inhibited the induction of PPARγ and CCAAT/EBP expression, as determined through protein expression via western blotting.

Conclusion: The influence of CRETE on lipid metabolism in 3T3-L1 cells is potentially suggesting a new approach to managing hyperlipidemia.

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来源期刊
Current pharmaceutical biotechnology
Current pharmaceutical biotechnology 医学-生化与分子生物学
CiteScore
5.60
自引率
3.60%
发文量
203
审稿时长
6 months
期刊介绍: Current Pharmaceutical Biotechnology aims to cover all the latest and outstanding developments in Pharmaceutical Biotechnology. Each issue of the journal includes timely in-depth reviews, original research articles and letters written by leaders in the field, covering a range of current topics in scientific areas of Pharmaceutical Biotechnology. Invited and unsolicited review articles are welcome. The journal encourages contributions describing research at the interface of drug discovery and pharmacological applications, involving in vitro investigations and pre-clinical or clinical studies. Scientific areas within the scope of the journal include pharmaceutical chemistry, biochemistry and genetics, molecular and cellular biology, and polymer and materials sciences as they relate to pharmaceutical science and biotechnology. In addition, the journal also considers comprehensive studies and research advances pertaining food chemistry with pharmaceutical implication. Areas of interest include: DNA/protein engineering and processing Synthetic biotechnology Omics (genomics, proteomics, metabolomics and systems biology) Therapeutic biotechnology (gene therapy, peptide inhibitors, enzymes) Drug delivery and targeting Nanobiotechnology Molecular pharmaceutics and molecular pharmacology Analytical biotechnology (biosensing, advanced technology for detection of bioanalytes) Pharmacokinetics and pharmacodynamics Applied Microbiology Bioinformatics (computational biopharmaceutics and modeling) Environmental biotechnology Regenerative medicine (stem cells, tissue engineering and biomaterials) Translational immunology (cell therapies, antibody engineering, xenotransplantation) Industrial bioprocesses for drug production and development Biosafety Biotech ethics Special Issues devoted to crucial topics, providing the latest comprehensive information on cutting-edge areas of research and technological advances, are welcome. Current Pharmaceutical Biotechnology is an essential journal for academic, clinical, government and pharmaceutical scientists who wish to be kept informed and up-to-date with the latest and most important developments.
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