Abstract
(1) Background: The use of antibiotics affects the composition of gut microbiota. Studies have suggested that the colonization of gut microbiota in early life is related to later food allergies. Still, the relationship between altered intestinal microbiota in adulthood and food allergies is unclear. (2) Methods: We established three mouse models to analyze gut microbiota dysbiosis’ impact on the intestinal barrier and determine whether this effect can increase the susceptibility to and severity of food allergy in later life. (3) Results: The antibiotic-induced gut microbiota dysbiosis significantly reduced Lachnospiraceae, Muribaculaceae, and Ruminococcaceae, and increased Enterococcaceae and Clostridiales. At the same time, the metabolic abundance was changed, including decreased short-chain fatty acids and tryptophan, as well as enhanced purine. This change is related to food allergies. After gut microbiota dysbiosis, we sensitized the mice. The content of specific IgE and IgG1 in mice serum was significantly increased, and the inflammatory response was enhanced. The dysbiosis of gut microbiota caused the sensitized mice to have more severe allergic symptoms, ruptured intestinal villi, and a decrease in tight junction proteins (TJs) when re-exposed to the allergen. (4) Conclusions: Antibiotic-induced gut microbiota dysbiosis increases the susceptibility and severity of food allergies. This event may be due to the increased intestinal permeability caused by decreased intestinal tight junction proteins and the increased inflammatory response.
Highlights
IntroductionPublisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations
We found that antibiotic intervention significantly reduced the richness and diversity of intestinal microflora compared to the control group (Ctrl) group
To understand whether the antibiotic-mediated gut microbiota dysbiosis may be related to food allergy, we focused on the composition of the intestinal flora in the gut microbiota dysbiosis model mice through high-throughput sequencing, and the metabolism of the intestinal flora was predicted
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. The microbiota system, composed of resident gut microbiota, plays an essential role in intestinal barrier health. The imbalance in gut microbiota has been shown to be closely related to gastrointestinal inflammation, tumors, obesity, diabetes, and neuropsychiatric diseases [1,2,3,4]. Scientists have focused on the relationship between intestinal flora and illness, especially food allergies [5,6]
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