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Orally acquired cyclic dinucleotides drive dSTING-dependent antiviral immunity in enterocytes

Elisha Segrist, Mark Dittmar, Beth Gold, Sara Cherry

2021Cell Reports26 citationsDOIOpen Access PDF

Abstract

Enteric pathogens overcome barrier immunity within the intestinal environment that includes the endogenous flora. The microbiota produces diverse ligands, and the full spectrum of microbial products that are sensed by the epithelium and prime protective immunity is unknown. Using Drosophila, we find that the gut presents a high barrier to infection, which is partially due to signals from the microbiota, as loss of the microbiota enhances oral viral infection. We report cyclic dinucleotide (CDN) feeding is sufficient to protect microbiota-deficient flies from enhanced oral infection, suggesting that bacterial-derived CDNs induce immunity. Mechanistically, we find CDN protection is dSTING- and dTBK1-dependent, leading to NF-kB-dependent gene expression. Furthermore, we identify the apical nucleoside transporter, CNT2, as required for oral CDN protection. Altogether, our studies define a role for bacterial products in priming immune defenses in the gut.

Topics & Concepts

ImmunityBiologyImmune systemPriming (agriculture)Gut floraIntestinal epitheliumInnate immune systemMicrobiologyCell biologyImmunologyEpitheliumGeneticsBotanyGerminationViral Infections and VectorsMosquito-borne diseases and controlinterferon and immune responses
Orally acquired cyclic dinucleotides drive dSTING-dependent antiviral immunity in enterocytes | Litcius