Prebiotic galactooligosaccharide feed modifies the chicken gut microbiota to efficiently clear Salmonella.

IF 5 2区 生物学 Q1 MICROBIOLOGY mSystems Pub Date : 2024-08-20 Epub Date: 2024-07-31 DOI:10.1128/msystems.00754-24
Philip J Richards, Abeer Almutrafy, Lu Liang, Geraldine M Flaujac Lafontaine, Elizabeth King, Neville M Fish, Amber J Connerton, Phillippa L Connerton, Ian F Connerton
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Abstract

Chicken meat is contaminated with Salmonella from the gut of infected chickens during slaughter. Eradication of Salmonella from broiler chickens through hygiene measures and/or vaccination is not cost-effective; complementary approaches are required. A mature gut microbiota obstructs Salmonella infection in chickens, and deliberate fortification of colonization resistance through prebiotic feed formulations would benefit public health and poultry production. Prebiotic galactooligosaccharides hastens Salmonella clearance from the gut of infected chickens. To better understand the role of galactooligosaccharides in colonization resistance, broiler chickens were raised on a wheat-soybean meal-based feed, with or without galactooligosaccharides for the first 24 days of life. Chickens were orally challenged with Salmonella enterica serovar Enteritidis at 20 days and the effect of supplementary galactooligosaccharides characterized by profiling Salmonella colonization, gut microbiota, innate immune response, and cecal short-chain fatty acid concentrations. Exposure to dietary galactooligosaccharides shortened the time to clear S. Enteritidis from the ceca. Differential abundance analysis of the cecal microbiota associated Salmonella challenge with a bacterial taxon belonging to the Acidaminococcaceae family (P < 0.005). Increased cecal concentrations of the short-chain fatty acids propionate and valerate were measured in Salmonella-challenged chickens sustained on either control or galactooligosaccharide-supplemented feed relative to mock-challenged controls; but far greater concentrations were detected in chickens fed a galactooligosaccharide-supplemented diet in early life. The abundance of the Acidaminococcaceae taxon exhibited a positive correlation with the cecal concentrations of propionate (ρ = 0.724, P = 0.008) and valerate (ρ = 0.71, P = 0.013). The absence of cecal pro-inflammatory transcriptional responses suggest that the rapid Salmonella clearance observed for the galactooligosaccharide-supplemented diet was not linked to innate immune function.

Importance: Work presented here identifies bacterial taxa responsible for colonization resistance to Salmonella in broiler chickens. Deliberate cultivation of these taxa with prebiotic galactooligosaccharide has potential as a straight-forward, safe, and cost-effective intervention against Salmonella. We hypothesize that catabolism of galactooligosaccharide and its breakdown products by indigenous microorganisms colonizing the chicken gut produce excess levels of propionate. In the absence of gross inflammation, propionate is inimical to Salmonella and hastens intestinal clearance.

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益生半乳寡糖饲料可改变鸡肠道微生物群,从而有效清除沙门氏菌。
鸡肉在屠宰过程中受到来自受感染鸡肠道的沙门氏菌污染。通过卫生措施和/或疫苗接种来根除肉鸡体内的沙门氏菌并不符合成本效益,因此需要采取辅助方法。成熟的肠道微生物群会阻碍沙门氏菌在鸡体内的感染,通过益生元饲料配方有意识地强化定植抗性将有利于公共卫生和家禽生产。益生元半乳寡糖可加速沙门氏菌从感染鸡肠道中清除。为了更好地了解半乳寡糖在抗定植中的作用,在肉鸡出生后的头 24 天,用添加或不添加半乳寡糖的以小麦-豆粕为基础的饲料饲养肉鸡。20 天后,用沙门氏菌肠炎血清肠炎菌对鸡进行口服挑战,并通过分析沙门氏菌定植、肠道微生物群、先天性免疫反应和盲肠短链脂肪酸浓度来确定补充半乳寡糖的效果。接触膳食半乳寡糖缩短了从盲肠清除肠炎沙门氏菌的时间。盲肠微生物群的丰度差异分析显示,沙门氏菌挑战与属于酸性球菌科的细菌类群有关(P < 0.005)。在沙门氏菌挑战鸡的盲肠中测得的短链脂肪酸丙酸酯和戊酸酯的浓度比对照组或添加了半乳寡糖的对照组要高;但在早期喂食添加了半乳寡糖的鸡的盲肠中测得的浓度要高得多。酸性球菌类群的丰度与盲肠中丙酸盐(ρ = 0.724,P = 0.008)和戊酸盐(ρ = 0.71,P = 0.013)的浓度呈正相关。缺乏盲肠促炎转录反应表明,在添加半乳寡糖的日粮中观察到的沙门氏菌快速清除与先天性免疫功能无关:本文介绍的工作确定了肉鸡对沙门氏菌产生定植抗性的细菌类群。用益生元半乳寡糖有意识地培养这些类群,有可能成为一种直接、安全且经济有效的抗沙门氏菌干预措施。我们推测,鸡肠道中的本地微生物对半乳寡糖及其分解产物的分解作用会产生过量的丙酸盐。在没有严重炎症的情况下,丙酸盐对沙门氏菌不利,并能加速肠道清除。
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来源期刊
mSystems
mSystems Biochemistry, Genetics and Molecular Biology-Biochemistry
CiteScore
10.50
自引率
3.10%
发文量
308
审稿时长
13 weeks
期刊介绍: mSystems™ will publish preeminent work that stems from applying technologies for high-throughput analyses to achieve insights into the metabolic and regulatory systems at the scale of both the single cell and microbial communities. The scope of mSystems™ encompasses all important biological and biochemical findings drawn from analyses of large data sets, as well as new computational approaches for deriving these insights. mSystems™ will welcome submissions from researchers who focus on the microbiome, genomics, metagenomics, transcriptomics, metabolomics, proteomics, glycomics, bioinformatics, and computational microbiology. mSystems™ will provide streamlined decisions, while carrying on ASM''s tradition of rigorous peer review.
期刊最新文献
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