Linda Zhu scite author profile

Akkermansia muciniphila, a novel mucin-degrading bacterium, has been demonstrated to prevent the development of obesity and related complications. However, whether it can protect poultry from intestinal mucosal damage by enteropathogens has never been mentioned. In this study, we found that A. muciniphila colonized in the intestine and then relieved intestinal mucosal damage in chicks caused by S. pullorum, including anatomical and morphological damage, alleviation of body weight and intestinal inflammation. The repair process activated by A. muciniphila is accompanied by an increase in the number of goblet cells in the chick's intestine and an up-regulation of Mucin 2 and trefoil factor 2 (Tff2). In addition, we also demonstrate that A. muciniphila improved colon length, crypt depth, increased the proliferating cell nuclear antigen, with the accelerated proliferation of intestinal epithelium through Wnt/β-catenin signaling pathway, thereby restoring the damaged intestinal mucosa. This study suggests that A. muciniphila activates the proliferation of intestinal cells protecting the intestinal barrier, thus relieving infection with S. pullorum in chickens.

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Lactobacillus Protects Against S. Typhimurium–Induced Intestinal Inflammation by Determining the Fate of Epithelial Proliferation and Differentiation

Xiao

Xie

et al. 2020

Molecular Nutrition Food Res

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Scope The influence of the intestinal microbiota, such as Lactobacillus, on the intestinal mucosa, particularly intestinal stem cells, remains incompletely understood. In this study, mice and intestinal organoids are used to explore the regulatory effect of Lactobacillus on the proliferation and differentiation of intestinal epithelial cells. Methods and results This study demonstrates that S. typhimurium causes intestinal epithelial damage and affected growth of intestinal organoids. S. typhimurium also colonizes the intestine and then causes pathological changes to the intestinal epithelium, intestinal inflammation, and even death. However, L. acidophilus alleviates damage to intestinal organoids, increases the survival ratio of mice infected with S. typhimurium, and reduces tumor necrosis factor‐α (TNF‐α) secretion. Moreover, L. acidophilus affects the differentiation of epithelial cells through inhibition of the excessive expansion of goblet cells and Paneth cells induced by S. typhimurium to avoid over‐exhaustion. Finally, it is also demonstrated that L. acidophilus ameliorates overactivation of Wnt/β‐catenin pathway by Salmonella, depending on the contact with toll‐like receptor 2 (TLR2), to affect the proliferation of the intestinal epithelium. Conclusions This study demonstrates that L. acidophilus protects the intestinal mucosa against S. typhimurium infection through not only the inhibition of pathogen invasion but also determination of the fate of the intestinal epithelium.

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Bacillus subtilis programs the differentiation of intestinal secretory lineages to inhibit Salmonella infection

et al. 2022

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Linda Zhu

Akkermansia muciniphila protects intestinal mucosa from damage caused by S. pullorum by initiating proliferation of intestinal epithelium

Lactobacillus Protects Against S. Typhimurium–Induced Intestinal Inflammation by Determining the Fate of Epithelial Proliferation and Differentiation

Bacillus subtilis programs the differentiation of intestinal secretory lineages to inhibit Salmonella infection

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