From pathogen to commensal to probiotic: modification of Microbacterium nematophilum-C. elegans interaction during chronic infection by the absence of host insulin signalling

The nematode worm Caenorhabditis elegans depends on microbes in decaying vegetation as its food source. To survive in an environment rich in opportunistic pathogens, C. elegans has evolved an epithelial defence system where surface-exposed tissues such as epidermis, pharynx, intestine, vulva and hindgut have the capacity of eliciting appropriate immune defences to acute gut infection. However, it is unclear how the worm responds to chronic intestinal infections. To this end, we have surveyed C. elegans mutants that are involved in inflammation, immunity and longevity to find their phenotypes during chronic infection. Worms that grew in a monoculture of the natural pathogen Microbacterium nematophilum (CBX102 strain) had a reduced lifespan and health span. This was independent of intestinal colonisation as both CBX102 and the derived avirulent strain UV336 were early persistent colonisers. In contrast, long-lived daf-2 mutants were resistant to chronic infection, showing reduced colonisation and a higher age-dependent vigour. In fact, UV336 acted as a probiotic in daf-2, showing a lifespan extension beyond OP50, the E. coli strain used for laboratory C. elegans culture. Longevity and vigour of daf-2 mutants growing on CBX102 was dependent on the FOXO orthologue DAF-16. Since the DAF-2/DAF-16 axis is present in most metazoans this suggests an evolutionary conserved host mechanism to modify a pathogen to a commensal.