Targeting of Mammalian Glycans Enhances Phage Predation in the Gastrointestinal Tract

The human mucosal surface consists of a eukaryotic epithelium, a prokaryotic microbiota, and a carbohydrate-rich interface that separates them. Bacteriophage parasitize the prokaryotes but are not known to associate with eukaryotic cells. In the gastrointestinal tract, the interaction of these two domains influences the health of the host, especially colonization with invasive pathobionts. Antibiotics may be used but they also kill protective commensals and lack the physio-chemical properties to be specifically and optimally active in this complex milieu. Here, we report a novel phage whose lytic cycle is enhanced in intestinal environments. The enhanced activity is encoded in its tail fiber gene, whose protein product binds human heparan sulfated proteoglycans and localizes the phage to the epithelial cell surface, thereby positioning it near its bacterial host, a type of locational targeting mechanism. This finding offers the prospect of developing epithelial-targeting phage to selectively remove invasive pathobiont species from mucosal surfaces.