A clostripain‐like protease plays a major role in generating the secretome of enterotoxigenic Bacteroides fragilis

Bacteroides fragilis toxin (BFT) is a protein secreted by enterotoxigenic (ETBF) strains of B. fragilis. BFT is synthesized as a proprotein (proBFT) that is predicted to be a lipoprotein and that is cleaved into two discrete fragments by a clostripain‐like protease called fragipain (Fpn). In this study, we obtained evidence that Fpn cleaves proBFT following its transport across the outer membrane. Remarkably, we also found that the disruption of the fpn gene led to a strong reduction in the level of >100 other proteins, many of which are predicted to be lipoproteins, in the culture medium of an ETBF strain. Experiments performed with purified Fpn provided direct evidence that the protease releases at least some of these proteins from the cell surface. The observation that wild‐type cells outcompeted an fpn‐ strain in co‐cultivation assays also supported the notion that Fpn plays an important role in cell physiology and is not simply dedicated to toxin biogenesis. Finally, we found that purified Fpn altered the adhesive properties of HT29 intestinal epithelial cells. Our results suggest that Fpn is a broad‐spectrum protease that not only catalyzes the protein secretion on a wide scale but that also potentially cleaves host cell proteins during colonization. Fragipain (Fpn) mediates the proteolytic maturation of a predicted lipoprotein called Bacteroides fragilysin toxin (BFT). Here we show that Fpn not only cleaves BFT following its transport across the outer membrane, but also cleaves a wide variety of other proteins, many of which are also predicted to be lipoproteins, from the cell surface. Our results provide evidence that Fpn is a broad‐spectrum protease that plays a key role in generating the B. fragilis secretome.