Multi-omics reveals the mechanisms underlying Lactiplantibacillus plantarum P8-mediated attenuation of oxidative stress in broilers challenged with dexamethasone

IF 6.3 Animal Nutrition Pub Date : 2023-09-01 DOI:10.1016/j.aninu.2023.06.002
Jinshan Zhao , Fan Zhao , Xuemin Li, Junmeng Yuan, Kai Zhang, Huawei Liu, Yang Wang
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引用次数: 1

Abstract

Oxidative stress is a common phenomenon in poultry production. Several molecules, including antioxidant genes, miRNAs, and gut microbiota metabolites, have been reported to participate in redox regulation. Lactiplantibacillus plantarum P8 (P8) was shown to improve the antioxidant capacity of chickens, but the specific molecular mechanisms remain unclear. In this study, 400 broilers were allocated to 4 treatment groups: control diet (Con group), control diet + dexamethasone injection (DEX group), control diet containing 1 × 108 CFU/g P8 (P8 group), and control diet containing 1 × 108 CFU/g P8 + DEX injection (DEX_P8 group). Integrated analysis of the microbiome, metabolomics, and miRNAomics was conducted to investigate the roles of P8 in oxidative stress in broilers. Results demonstrated that P8 supplementation significantly improved growth performance, jejunal morphology, and antioxidant function in DEX-treated broilers. Analysis of the gut microbiota revealed a higher abundance of Barnesiella (P = 0.01) and Erysipelatoclostridium (P = 0.05) in the DEX_P8 group than in the DEX group. Functional prediction indicated that certain pathways, including the phenylacetate degradation pathway, were enriched in the DEX_P8 group compared to the DEX group. Metabolites in the cecal contents were distinct between the groups. P8 supplementation increased the content of metabolites with antioxidant capacity, e.g., urobilinogen (P < 0.01), and decreased that of metabolites related to oxidative stress, e.g., genistein (P < 0.01). Functional prediction indicated that metabolites that differed between the DEX_P8 and DEX groups were enriched in pathways including “tryptophan metabolism” and “primary bile acid biosynthesis”. The miRNAomics analysis further showed that, compared to the DEX group, several miRNAs in the jejunum, such as gga-miR-21-3p (P = 0.03), were increased, whereas gga-miR-455-3p (P = 0.02) was decreased in the DEX_P8 group. The PI3K-Akt, Ras, and Rap1 signaling pathways were enriched in the DEX_P8 group compared to the DEX group through KEGG analysis. Correlation analysis revealed potential interactions between growth performance, oxidation/antioxidation, jejunal morphology, gut microbiota, cecal content metabolites, and jejunal miRNAs. Overall, our results indicate that P8 supplementation may improve the growth performance, jejunal morphology and antioxidant capacity of DEX-treated broilers by regulating gut microbiota, its metabolites, and intestinal miRNAs.

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多重组学揭示了植物乳杆菌P8介导的地塞米松攻击肉鸡氧化应激减轻的机制
氧化应激是家禽生产中常见的现象。一些分子,包括抗氧化基因、miRNA和肠道微生物群代谢产物,已被报道参与氧化还原调节。植物乳杆菌P8(P8)可提高鸡的抗氧化能力,但其具体分子机制尚不清楚。本研究将400只肉鸡分为4个处理组:对照日粮(Con组)、对照日粮+地塞米松注射液(DEX组)、含1×108CFU/g P8的对照日粮和含1×108 CFU/g P8+DEX注射液的对照日料(DEX_P8组)。对微生物组、代谢组学和miRNA组学进行了综合分析,以研究P8在肉鸡氧化应激中的作用。结果表明,添加P8显著改善了DEX处理肉鸡的生长性能、空肠形态和抗氧化功能。对肠道微生物群的分析显示,DEX_P8组的Barnesiella(P=0.01)和丹毒梭菌(P=0.05)的丰度高于DEX组。功能预测表明,与DEX组相比,DEX_P8组富集了某些途径,包括苯乙酸降解途径。盲肠内容物中的代谢产物在各组之间是不同的。补充P8增加了具有抗氧化能力的代谢产物的含量,例如尿胆甾醇原(P<;0.01),并降低了与氧化应激相关的代谢产物,例如。,genistein(P<;0.01)。功能预测表明,DEX_P8和DEX组之间不同的代谢产物在包括“色氨酸代谢”和“初级胆汁酸生物合成”的途径中富集。miRNA组学分析进一步表明,与DEX组相比,空肠中的几种miRNA,如gga-miR-21-3p(P=0.03)增加,而DEX_P8组的gga-miR-455-3p(P=0.02)减少。通过KEGG分析,与DEX组相比,DEX_P8组的PI3K-Akt、Ras和Rap1信号通路富集。相关性分析揭示了生长性能、氧化/抗氧化、空肠形态、肠道微生物群、盲肠含量代谢产物和空肠miRNA之间的潜在相互作用。总之,我们的研究结果表明,补充P8可以通过调节肠道微生物群、代谢产物和肠道miRNA来改善DEX处理肉鸡的生长性能、空肠形态和抗氧化能力。
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来源期刊
Animal Nutrition
Animal Nutrition Animal Science and Zoology
CiteScore
9.70
自引率
0.00%
发文量
542
审稿时长
65 days
期刊介绍: Animal Nutrition encompasses the full gamut of animal nutritional sciences and reviews including, but not limited to, fundamental aspects of animal nutrition such as nutritional requirements, metabolic studies, body composition, energetics, immunology, neuroscience, microbiology, genetics and molecular and cell biology related to primarily to the nutrition of farm animals and aquatic species. More applied aspects of animal nutrition, such as the evaluation of novel ingredients, feed additives and feed safety will also be considered but it is expected that such studies will have a strong nutritional focus. Animal Nutrition is indexed in SCIE, PubMed Central, Scopus, DOAJ, etc.
期刊最新文献
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