Publication date: 7 March 2017
Source:Cell Metabolism, Volume 25, Issue 3
Author(s): Malini Ahuja, Daniella M. Schwartz, Mayank Tandon, Aran Son, Mei Zeng, William Swaim, Michael Eckhaus, Victoria Hoffman, Yiyuan Cui, Bo Xiao, Paul F. Worley, Shmuel Muallem
The gut microbiome participates in numerous physiologic functions and communicates intimately with the host immune system. Antimicrobial peptides are critical components of intestinal innate immunity. We report a prominent role for antimicrobials secreted by pancreatic acini in shaping the gut microbiome that is essential for intestinal innate immunity, barrier function, and survival. Deletion of the Ca2+ channel Orai1 in pancreatic acini of adult mice resulted in 60%–70% mortality within 3 weeks. Despite robust activation of the intestinal innate immune response, mice lacking acinar Orai1 exhibited intestinal bacterial outgrowth and dysbiosis, ultimately causing systemic translocation, inflammation, and death. While digestive enzyme supplementation was ineffective, treatments constraining bacterial outgrowth (purified liquid diet, broad-spectrum antibiotics) rescued survival, feeding, and weight gain. Pancreatic levels of cathelicidin-related antimicrobial peptide (CRAMP) were reduced, and supplement of synthetic CRAMP prevented intestinal disease. These findings reveal a critical role for antimicrobial pancreatic secretion in gut innate immunity.
Graphical abstract
Teaser
While gut innate immunity is thought to be primarily maintained by intestinal epithelial cells, Ahuja et al. show that secretion of antimicrobials from pancreatic acinar cells regulates gut microbiota composition and innate immunity. Blocking acinar cell exocytosis in mice leads to gut dysbiosis, inflammation, systemic bacterial translocation, and ultimately death.http://ift.tt/2mS5lNl
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