Gypsum alleviates pneumonia via the gut–lung axis by mediating ILC2 compartmental migration

Abstract

IntroductionBacterial pneumonia is a common lower respiratory tract infectious disease. Gypsum, a type of calcium sulfate mineral, primarily consists of calcium sulfate and contains trace amounts of other metallic elements. In traditional Chinese medicine, gypsum has been widely applied, possessing effects such as heat-clearing, detoxification, cooling blood, arresting bleeding, reducing swelling, and alleviating pain. The purpose of this study was to investigate the mechanism of gypsum inhibition of Streptococcus pneumoniae -induced pneumonia by mediating interregional migration of ILC2 through the gut-lung axis. MethodsNormal pneumonia model was induced by Streptococcus pneumoniae, and pseudo-sterile mouse model was established using broad-spectrum antibiotics. The influence of gypsum on the intestinal flora was analyzed using 16S rDNA. Flow cytometry was used to analyze the typing and content of ILC2 in mouse mesenteric lymph nodes and lung tissues. The expression levels of inflammatory cytokines and specific targets associated with immune migration were assessed using ELISA, RT-qPCR, and western blotting methods. And the effects of gypsum on mucosal barrier using IHC. ResultsGypsum effectively alleviates pulmonary inflammation in mice with pneumonia. Gypsum restores the gut microbiota in mice with Streptococcus pneumoniae and gypsum can regulate the expression of miR-155, miR-146a, IL-25, and S1P, promoting the migration of intestinal ILC2s to the lungs. Finally promotes type 2 immunity, alleviating pneumonia and restore lung mucosal barrier. DiscussionOur study contributes to the understanding of gypsum's function in treating infectious pulmonary conditions. Its mechanism involves remedying gut dysbiosis and initiating ILC2 migration, culminating in decreased lung inflammation and enhanced mucosal immunity in the lungs.