Abstract
PrfA is a key regulator of Listeria monocytogenes pathogenesis and induces the expression of multiple virulence factors within the infected host. PrfA is post-translationally regulated such that the protein becomes activated upon bacterial entry into the cell cytosol. The signal that triggers PrfA activation remains unknown, however mutations have been identified (prfA* mutations) that lock the protein into a high activity state. In this report we examine the consequences of constitutive PrfA activation on L. monocytogenes fitness both in vitro and in vivo. Whereas prfA* mutants were hyper-virulent during animal infection, the mutants were compromised for fitness in broth culture and under conditions of stress. Broth culture prfA*-associated fitness defects were alleviated when glycerol was provided as the principal carbon source; under these conditions prfA* mutants exhibited a competitive advantage over wild type strains. Glycerol and other three carbon sugars have been reported to serve as primary carbon sources for L. monocytogenes during cytosolic growth, thus prfA* mutants are metabolically-primed for replication within eukaryotic cells. These results indicate the critical need for environment-appropriate regulation of PrfA activity to enable L. monocytogenes to optimize bacterial fitness inside and outside of host cells.
Highlights
The environmental bacterial pathogen Listeria monocytogenes is an intriguing example of a microorganism that has become well adapted to life in the soil as well as to life within the cytosol of mammalian host cells
While disease caused by L. monocytogenes in healthy individuals is usually restricted to a self-limiting gastroenteritis, in immunocompromised individuals and pregnant women L. monocytogenes is capable of causing systemic infections that lead to meningitis, encephalitis, and in the case of pregnant women, infection of the developing fetus leading to abortion, stillbirth, or neonatal infections [4,5]
If PrfA* impairs SigB function, one would anticipate that the magnitude of the competitive defect exhibited by a prfA* DsigB double mutant would be equivalent to that exhibited by either single mutant (Fig. 4A)
Summary
The environmental bacterial pathogen Listeria monocytogenes is an intriguing example of a microorganism that has become well adapted to life in the soil as well as to life within the cytosol of mammalian host cells. This bacterium is widespread in the environment where it is believed to live as a saprophyte on decaying plant material [1]. Upon ingestion by a susceptible mammalian host, L. monocytogenes transitions into a physiological state that facilitates bacterial survival and replication within host cells [2,3]. PrfA is an essential regulator of L. monocytogenes pathogenesis, and bacterial mutants that lack functional PrfA are severely attenuated in animal infection models [19,20]
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