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二氢杨梅素对抗生素应激小鼠血清抗氧化性和肠道微生物多样性的影响
引用本文:张路千,方晨昊,余知和,王允. 二氢杨梅素对抗生素应激小鼠血清抗氧化性和肠道微生物多样性的影响[J]. 微生物学通报, 2023, 50(3): 1179-1194
作者姓名:张路千  方晨昊  余知和  王允
作者单位:长江大学生命科学学院, 湖北 荆州 434025
基金项目:国家自然科学基金青年基金(31601679)
摘    要:【背景】二氢杨梅素(dihydromyricetin, DMY)是一类存在于藤茶中的主要黄酮类化合物,具有抗氧化、抗炎等功能,其药用价值受到广泛关注,但其在生物体内的生物活性及肠道中的分解代谢机制尚不清楚。【目的】探究二氢杨梅素对抗生素应激下小鼠的血清抗氧化性和肠道微生物多样性的影响。【方法】将小鼠分为对照组、抗生素组、抗生素+二氢杨梅素组,检测各组小鼠血清中的抗氧化指标,利用高通量测序分析组间肠道微生物多样性的差异,通过实时荧光定量PCR(real-time fluorescence quantitative polymerase chain reaction, RT-qPCR)验证特定菌群组间的相对丰度差异。【结果】二氢杨梅素显著提高了抗生素应激小鼠血清中过氧化氢酶(catalase, CAT)、超氧化物歧化酶(superoxide dismutase, SOD)、谷胱甘肽过氧化物酶(glutataione peroxidase, GSH-PX)活性(P<0.05),显著降低丙二醛(malondialdehyde,MDA)含量(P<0.05),催化一氧化氮(nitric...

关 键 词:二氢杨梅素  抗生素  抗氧化活性  肠道微生物  高通量测序
收稿时间:2022-10-06

Effects of dihydromyricetin on serum antioxidation capacity and intestinal microbial diversity in antibiotic stressed mice
ZHANG Luqian,FANG Chenhao,YU Zhihe,WANG Yun. Effects of dihydromyricetin on serum antioxidation capacity and intestinal microbial diversity in antibiotic stressed mice[J]. Microbiology China, 2023, 50(3): 1179-1194
Authors:ZHANG Luqian  FANG Chenhao  YU Zhihe  WANG Yun
Affiliation:College of Life Science, Yangtze University, Jingzhou 434025, Hubei, China
Abstract:[Background] Dihydromyricetin (DMY) is a major flavonoid compound in Vine tea (Ampelopsis grossedentata), which has antioxidant, anti-inflammatory, and other effects. Its medicinal value has attracted extensive attention, but its biological activity in vivo and catabolic mechanism in intestine are still unclear. [Objective] To explore the effects of dihydromyricetin on serum antioxidant capacity and intestinal microbial diversity of mice under antibiotic stress. [Methods] The experimental mice were divided into a control group, an antibiotic group, and an antibiotic+dihydromyricetin group. The antioxidant indexes in the serum of mice in each group were detected. The differences of intestinal microbial diversity between groups were analyzed by high-throughput sequencing. The relative abundance differences between specific bacterial groups were verified by real time fluorescence quantitative polymerase chain reaction (RT-qPCR). [Results] Dihydromyricetin significantly increased the activities of catalase (CAT), superoxide dismutase (SOD), and glutathione (GSH) in the serum of antibiotic stressed mice (P<0.05), significantly decreased the content of malondialdehyde (MDA) (P<0.05), catalyzed the synthesis of nitric oxide (NO), and significantly increased the total antioxidant capacity of mice. There were significant differences in the composition and structure of intestinal microorganisms between the antibiotic+dihydromyricetin group and the antibiotic group. Dihydromyricetin improved the composition of intestinal flora in mice by regulating the abundance ratio of Firmicutes and Bacteroidetes, promoting the proliferation of bacteria such as Lactobacillus and Clostridium, and inhibiting the proliferation of Enterobacteriaceae, so as to increase the relative abundance of beneficial bacteria related to intestinal catabolism such as Lactobacillus and Clostridium in the intestinal tract of mice. [Conclusion] Dihydromyricetin can change the structure of intestinal flora. Some probiotics are heavily involved in its metabolic process and produce beneficial metabolites to improve the antioxidant capacity of the body and maintain intestinal health. Negative effects of antibiotics on the intestinal tract of mice are thus reduced. These findings provide a theoretical basis for the study of the function and catabolic mechanism of dihydromyricetin.
Keywords:dihydromyricetin  antibiotic  antioxidant activity  intestinal microflora  high-throughput sequencing
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