Priority effects and microbial cross-feeding shape zoonotic agent spread in broiler chickens

Research Square (Research Square) Pub Date : 2023-11-14 DOI:10.21203/rs.3.rs-3588367/v1

Sofia Marcos, Iñaki Odriozola, Jorge Langa, Germana Baldi, Eray Sahin, Sarah Siu Tze Mak, Louisa Pless, Joan Tarradas, Andone Estonba, Antton Alberdi

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Abstract

Abstract Unravelling the colonisation dynamics and physiological effects of zoonotic bacteria such as Campylobacter is imperative to prevent foodborne diseases. We employed a hologenomic approach to jointly analyse metabolic networks and gene expression of the caecal microbiota, with the intestinal gene expression of 613 broiler chickens that did and did not undergo an opportunistic Campylobacter colonisation. We report that an early development of a distinct microbial enterotype enriched with Bacteroides fragilis_A , changed the community to a functional profile that likely benefited Campylobacter through production of key metabolites. The resulting enterotype was not associated with a host immune response, but exhibited an enriched and energetically more demanding functional repertoire compared to the standard enterotype, which could have caused the growth decline observed in Campylobacter- colonised animals. We provide unique insights into microbe-microbe and host-microbe interactions, which point to the early-stage microbiota-development as a relevant factor for later Campylobacter spread in broiler chickens.

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肉鸡人畜共患病因子传播的优先效应及微生物交叉饲养形态

揭示人畜共患细菌如弯曲杆菌的定植动力学和生理效应对预防食源性疾病是必要的。我们采用全基因组学方法联合分析了盲肠微生物群的代谢网络和基因表达，以及613只肉仔鸡的肠道基因表达，这些肉仔鸡经历了和没有经历机会性弯曲杆菌定植。我们报道了一种富含脆弱拟杆菌a的独特微生物肠道型的早期发育，改变了该群落的功能特征，可能通过产生关键代谢物使弯曲杆菌受益。由此产生的肠型与宿主免疫反应无关，但与标准肠型相比，表现出丰富且能量要求更高的功能库，这可能导致在弯曲杆菌定植的动物中观察到的生长下降。我们对微生物-微生物和宿主-微生物相互作用提供了独特的见解，这表明早期微生物群的发育是肉鸡后期弯曲杆菌传播的相关因素。

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