Conserved Oligopeptide Permeases Modulate Sporulation Initiation in Clostridium difficile

Abstract

ABSTRACTThe anaerobic gastrointestinal pathogenClostridium difficilemust form a metabolically dormant spore to survive in oxygenic environments and be transmitted from host to host. The regulatory factors by whichC. difficileinitiates and controls the early stages of sporulation inC. difficileare not highly conserved in otherClostridiumorBacillusspecies. Here, we investigated the role of two conserved oligopeptide permeases, Opp and App, in the regulation of sporulation inC. difficile. These permeases are known to positively affect sporulation inBacillusspecies through the import of sporulation-specific quorum-sensing peptides. In contrast to other spore-forming bacteria, we discovered that inactivating these permeases inC. difficileresulted in the earlier expression of early sporulation genes and increased sporulationin vitro. Furthermore, disruption ofoppandappresulted in greater virulence and increased the amounts of spores recovered from feces in the hamster model ofC. difficileinfection. Our data suggest that Opp and App indirectly inhibit sporulation, likely through the activities of the transcriptional regulator SinR and its inhibitor, SinI. Taken together, these results indicate that the Opp and App transporters serve a different function in controlling sporulation and virulence inC. difficilethan inBacillus subtilisand suggest that nutrient availability plays a significant role in pathogenesis and sporulationin vivo. This study suggests a link between the nutritional status of the environment and sporulation initiation inC. difficile.