Microbiome and Microbial Pure Culture Study Reveal Commensal Microorganisms Alleviate Serovar Pullorum Infection in Chickens.

Pullorum disease, an intestinal disease in chickens caused by serovar pullorum ( Pullorum), is a significant threat to the poultry industry and results in substantial economic losses. The bacteria's transmission, both vertical and horizontal, makes it difficult to completely eliminate it. Control strategies for pullorum disease primarily involve stringent eradication programs that cull infected birds and employ antibiotics for treatment. However, eradication programs are costly, and antibiotic use is restricted. Therefore, developing alternative control strategies is essential. Increasingly, studies are focusing on modulating the gut microbiota to control intestinal diseases. Modulating the chicken gut microbiota may offer a novel strategy for preventing and controlling pullorum disease in poultry. However, the impact of Pullorum on the chicken gut microbiota has not been well established, prompting our exploration of the relationship between Pullorum and the chicken gut microbiota in this study. In this study, we initially analyzed the dynamic distribution of the gut microbiota in chickens infected with Pullorum. Alpha diversity analysis revealed a decrease in observed OTUs and the Shannon diversity index in the infected group, suggesting a reduction in the richness of the chicken gut microbiota due to Pullorum infection. Principal coordinate analysis (PCoA) showed distinct clusters between the gut microbiota of infected and uninfected groups, indicating Pullorum infection changed the chicken gut microbiota structure. Specifically, Pullorum infection enriched the relative abundance of the genera (65% in infected vs. 40.6% in uninfected groups) and (10.8% vs. 3.7%) while reducing the abundance of (9.9% vs. 32%) in the chicken microbiota. Additionally, based on the observed changes in the chicken gut microbiota, we isolated microorganisms, including , and () which were decreased by Pullorum infection. Notably, the Lp02 strain was found to effectively inhibit Pullorum proliferation in vitro and alleviate its infection in vivo. We found that Pullorum infection reduced the richness of the chicken gut microbiota and enriched the relative abundance of the genera and while decreasing the abundance of the anaerobic genus Furthermore, microbiota analysis enabled the isolation of several antimicrobial microorganisms from healthy chicken feces, with a strain notably inhibiting Pullorum proliferation in vitro and alleviating its infection in vivo. Overall, this research enhances our understanding of the interaction between gut microbiota and pathogen infection, as well as offers new perspectives and strategies for modulating the chicken gut microbiota to control pullorum disease.