A cortex-specific PBP contributes to cephalosporin resistance in Clostridium difficile

Abstract

AbstractSporulation is a complex cell differentiation programme shared by many members of the Firmicutes, the end result of which is a highly resistant, metabolically inert spore that can survive harsh environmental insults. Clostridium difficile spores are essential for transmission of disease and are also required for recurrent infection. However, the molecular basis of sporulation is poorly understood, despite parallels with the well-studied Bacillus subtilis system. The spore envelope consists of multiple protective layers, one which is a specialised layer of peptidoglycan, called the cortex, that is essential for the resistant properties of the spore. We have identified and characterised a penicillin binding protein (PBP) that is required for cortex synthesis in C. difficile. Surprisingly this PBP was also found to contribute to cephalosporin resistance, indicating an additional role in the synthesis of vegetative cell wall. This is the first description of a cortex-specific PBP in C. difficile and begins the process of unravelling cortex biogenesis in this important pathogen.