A conserved genetic basis for commensal-host specificity through live imaging of colonization dynamics

Abstract

AbstractAnimals throughout the metazoa selectively acquire specific symbiotic gut bacteria from their environment that aid host fitness. Current models of colonization suggest these bacteria use weakly specific receptors to stick to host tissues and that colonization results when they stick in a region of the host gut that overlaps with their nutritional niche. An alternative model is that unique receptor-ligand binding interactions provide specificity for target niches. Here we use live imaging of individual symbiotic bacterial cells colonizing the gut of livingDrosophila melanogasterto show thatLactiplantibacillus plantarumspecifically recognizes a distinct physical niche in the host gut. We find that recognition is controlled by a colonization island that is widely conserved in commensals and pathogens from the Lactobacillales to the Clostridia. Our findings indicate a genetic mechanism of host specificity that is broadly conserved.One-Sentence SummaryHost-symbiont specificity is encoded by a conserved colonization island that provides molecular precision to host niche access.