Clostridium difficile colitis: pathogenesis and host defence

Key Points Disease that is associated with infection by Clostridium difficile represents an urgent public health threat. The severity of C. difficile infection is determined by strain virulence, interactions with intestinal commensal microbial communities, and the host immune response to damage of the intestinal epithelium that is induced by C. difficile . The ability to sporulate and germinate is essential to C. difficile virulence. Hundreds of genes that are involved in sporulation and germination have been identified as well as a bile acid receptor that induces germination. C. difficile secretes toxin proteins that are internalized by host cells through receptor-mediated endocytosis and cause disruption to cytoskeletal architecture, which leads to cell death. Toxin-mediated cell death results in the loss of intestinal barrier integrity and the translocation of bacteria into underlying tissues. The intestinal microbiota provides colonization resistance against C. difficile infection. Commensal bacteria that are capable of converting primary bile acids to secondary bile acids inhibit the growth of C. difficile by depriving C. difficile spores of an important germinant and by increasing the concentration of secondary bile acids in the intestinal lumen, which are toxic to the vegetative form of C. difficile . Toxin-mediated damage to the epithelium activates the host inflammatory immune response. The role of the immune system is to limit epithelial damage and the dissemination of intestinal bacteria into the circulation. However, an overly robust inflammatory response can be damaging to the host and contribute to disease pathology. Treating infection with Clostridium difficile and post-antibiotic disease can be difficult. In this Review, Abt, McKenney and Pamer show how insights into spore germination, virulence and interactions with the host and microbiota can help to combat this pathogen. Clostridium difficile is a major cause of intestinal infection and diarrhoea in individuals following antibiotic treatment. Recent studies have begun to elucidate the mechanisms that induce spore formation and germination and have determined the roles of C. difficile toxins in disease pathogenesis. Exciting progress has also been made in defining the role of the microbiome, specific commensal bacterial species and host immunity in defence against infection with C. difficile . This Review will summarize the recent discoveries and developments in our understanding of C. di