Biosynthesis of Chryseno[2,1,c]oxepin-12-Carboxylic Acid from Glycyrrhizic Acid in Aspergillus terreus TMZ05-2, and Analysis of Its Anti-inflammatory Activity.

IF 3.3 4区生物学 Q2 MICROBIOLOGY

Journal of Microbiology Pub Date : 2024-02-01 Epub Date: 2024-02-27 DOI:10.1007/s12275-024-00105-4

Liangliang Chen, Lin Zhao, Ju Han, Ping Xiao, Mingzhe Zhao, Sen Zhang, Jinao Duan

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引用次数: 0

Abstract

Glycyrrhizic acid, glycyrrhetinic acid, and their oxo, ester, lactone, and other derivatives, are known for their anti-inflammatory, anti-oxidant, and hypoglycemic pharmacological activities. In this study, chryseno[2,1-c]oxepin-12-carboxylic acid (MG) was first biosynthesized from glycyrrhizic acid through sequential hydrolysis, oxidation, and esterification using Aspergillus terreus TMZ05-2, providing a novel in vitro biosynthetic pathway for glycyrrhizic acid derivatives. Assessing the influence of fermentation conditions and variation of strains during culture under stress-induction strategies enhanced the final molar yield to 88.3% (5 g/L glycyrrhizic acid). CCK8 assays showed no cytotoxicity and good cell proliferation, and anti-inflammatory experiments demonstrated strong inhibition of NO release (36.3%, low-dose MG vs. model), transcriptional downregulation of classical effective cellular factors tumor necrosis factor-α (TNF-α; 72.2%, low-dose MG vs. model), interleukin-6 (IL-6; 58.3%, low-dose MG vs. model) and interleukin-1β (IL-1β; 76.4%, low-dose MG vs. model), and decreased abundance of P-IKK-α, P-IKB-α, and P-P65 proteins, thereby alleviating inflammatory responses through the NF-κB pathway in LPS-induced RAW264.7 cells. The findings provide a reference for the biosynthesis of lactone compounds from medicinal plants.

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太尔曲霉 TMZ05-2 从甘草酸中生物合成 Chryseno[2,1,c]oxepin-12-Carboxylic Acid 及其抗炎活性分析。

甘草酸、甘草次酸及其羰基、酯、内酯和其他衍生物具有抗炎、抗氧化和降血糖的药理活性。在这项研究中，利用土曲霉 TMZ05-2 通过连续的水解、氧化和酯化过程，首次从甘草酸中生物合成了胆甾烯并[2,1-c]氧杂卓-12-羧酸（MG），为甘草酸衍生物提供了一种新的体外生物合成途径。在应激诱导策略下，评估发酵条件和培养过程中菌株变化的影响，可将最终摩尔产量提高到 88.3%（5 克/升甘草酸）。CCK8 实验表明，甘草酸无细胞毒性，细胞增殖良好；抗炎实验表明，甘草酸可有效抑制 NO 的释放（36.3%，低剂量甘草酸与模型相比）、经典有效细胞因子肿瘤坏死因子-α（TNF-α；72.2%，低剂量甘草酸与模型相比）的转录下调、白细胞介素-6（TNF-α；72.2%，低剂量甘草酸与模型相比）的转录下调、白细胞介素-6（TNF-α；72.2%，低剂量甘草酸与模型相比）的转录下调。模型）、白细胞介素-6（IL-6；58.3%，低剂量 MG 与模型对比）和白细胞介素-1β（IL-1β；76.4%，低剂量 MG 与模型对比），并降低 P-IKK-α、P-IKB-α 和 P-P65 蛋白的丰度，从而减轻 LPS 诱导的 RAW264.7 细胞通过 NF-κB 通路产生的炎症反应。这些发现为药用植物内酯化合物的生物合成提供了参考。

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来源期刊

Journal of Microbiology 生物-微生物学

CiteScore

5.70

自引率

3.30%

发文量

审稿时长

3 months

期刊介绍： Publishes papers that deal with research on microorganisms, including archaea, bacteria, yeasts, fungi, microalgae, protozoa, and simple eukaryotic microorganisms. Topics considered for publication include Microbial Systematics, Evolutionary Microbiology, Microbial Ecology, Environmental Microbiology, Microbial Genetics, Genomics, Molecular Biology, Microbial Physiology, Biochemistry, Microbial Pathogenesis, Host-Microbe Interaction, Systems Microbiology, Synthetic Microbiology, Bioinformatics and Virology. Manuscripts dealing with simple identification of microorganism(s), cloning of a known gene and its expression in a microbial host, and clinical statistics will not be considered for publication by JM.