Multi-omics profiling of dairy cattle oxidative stress identifies hindgut-derived Phascolarctobacterium succinatutens exhibiting antioxidant activity.

IF 7.8 1区生物学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

npj Biofilms and Microbiomes Pub Date : 2025-04-22 DOI:10.1038/s41522-025-00698-7

Duo Gao, Yimin Zhuang, Shuai Liu, Boyan Ma, Yiming Xu, Hongxing Zhang, Yiliyaer Nuermaimaiti, Tianyu Chen, Guobin Hou, Wenli Guo, Jingtao You, Zhiyu Huang, Jianxin Xiao, Wei Wang, Mengmeng Li, Shengli Li, Zhijun Cao

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Abstract

An imbalance between oxidative and antioxidant processes in the host can lead to excessive oxidation, a condition known as oxidative stress (OS). Although changes in the hindgut microbiota have been frequently linked to OS, the specific microbial and metabolic underpinnings of this association remain unclear. In this study, we enrolled 81 postpartum Holstein cows and stratified them into high oxidative stress (HOS, n = 9) and low oxidative stress (LOS, n = 9) groups based on the oxidative stress index (OSi). Using a multi-omics approach, we performed 16S rRNA gene sequencing to evaluate microbial diversity, conducted metagenomic analysis to identify functional bacteria, and utilized untargeted metabolomics to profile serum metabolites. Our analyses revealed elevated levels of kynurenine, formyl-5-hydroxykynurenamine, and 5-hydroxyindole-3-acetic acid in LOS dairy cows. Additionally, the LOS cows had a higher abundance of short-chain fatty acids (SCFAs)-producing bacteria, including Bacteroidetes bacterium, Paludibacter propionicigenes, and Phascolarctobacterium succinatutens (P. succinatutens), which were negatively correlated with OSi. To explore the potential role of these bacteria in mitigating OS, we administered P. succinatutens (10⁸ cfu/day for 14 days) to C57BL/6 J mice (n = 10). Oral administration of P. succinatutens significantly increased serum total antioxidant capacity, decreased total oxidants, and reduced OSi in mice. Moreover, this treatment promoted activation of the Nrf2-Keap1 antioxidant pathway, significantly enhancing the enzymatic activities of GSH-Px and SOD, as well as the concentrations of acetate and propionate in the colon. In conclusion, our findings suggest that systemic tryptophan metabolism and disordered SCFAs production are concurrent factors influenced by hindgut microbiota and associated with OS development. Modulating the hindgut microbiota, particularly by introducing specific SCFAs-producing bacteria, could be a promising strategy for combating OS.

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奶牛氧化应激的多组学分析鉴定了后肠来源的琥珀酸相乳杆菌具有抗氧化活性。

宿主体内氧化和抗氧化过程之间的不平衡会导致过度氧化，这种情况被称为氧化应激（OS）。虽然后肠菌群的变化经常与OS相关，但这种关联的具体微生物和代谢基础尚不清楚。本研究选取81头产后荷斯坦奶牛，根据氧化应激指数（OSi）将其分为高氧化应激组（HOS, n = 9）和低氧化应激组（LOS, n = 9）。利用多组学方法，我们进行了16S rRNA基因测序来评估微生物多样性，进行了宏基因组分析来鉴定功能细菌，并利用非靶向代谢组学来分析血清代谢物。我们的分析显示，LOS奶牛的犬尿氨酸、甲酰基-5-羟基犬尿胺和5-羟基吲哚-3-乙酸水平升高。此外，产短链脂肪酸（SCFAs）的细菌丰度较高，包括拟杆菌、丙酸古杆菌和琥珀酸相乳杆菌（P. succinatutens），它们与OSi呈负相关。为了探索这些细菌在缓解OS中的潜在作用，我们给C57BL/6 J小鼠（n = 10）服用琥珀酸钠假单胞菌（108 cfu/天，持续14天）。口服琥珀酸酯可显著提高小鼠血清总抗氧化能力，降低总氧化剂，降低OSi。此外，该处理促进了Nrf2-Keap1抗氧化途径的激活，显著提高了结肠中GSH-Px和SOD的酶活性，以及乙酸和丙酸的浓度。综上所述，我们的研究结果表明，系统性色氨酸代谢和scfa产生紊乱是受后肠菌群影响的并发因素，并与OS的发生有关。调节后肠微生物群，特别是通过引入特定的scfas产生细菌，可能是对抗OS的一种有前途的策略。

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

npj Biofilms and Microbiomes Immunology and Microbiology-Microbiology

CiteScore

12.10

自引率

3.30%

发文量

审稿时长

9 weeks

期刊介绍： npj Biofilms and Microbiomes is a comprehensive platform that promotes research on biofilms and microbiomes across various scientific disciplines. The journal facilitates cross-disciplinary discussions to enhance our understanding of the biology, ecology, and communal functions of biofilms, populations, and communities. It also focuses on applications in the medical, environmental, and engineering domains. The scope of the journal encompasses all aspects of the field, ranging from cell-cell communication and single cell interactions to the microbiomes of humans, animals, plants, and natural and built environments. The journal also welcomes research on the virome, phageome, mycome, and fungome. It publishes both applied science and theoretical work. As an open access and interdisciplinary journal, its primary goal is to publish significant scientific advancements in microbial biofilms and microbiomes. The journal enables discussions that span multiple disciplines and contributes to our understanding of the social behavior of microbial biofilm populations and communities, and their impact on life, human health, and the environment.