Characterization of the growth behavior ofListeria monocytogenesinListeriasynthetic media

Abstract

AbstractThe foodborne pathogenListeria monocytogenescan grow in a wide range of environmental conditions. For the study of the physiology of this organism, several chemically defined media have been developed over the past decades. Here, we examined the ability ofL. monocytogeneswildtype strains EGD-e and 10403S to grow under salt and pH stress inListeriasynthetic medium (LSM). Furthermore, we determined that a wide range of carbon sources could support growth of both wildtype strains in LSM. However, for hexose phosphate sugars such as glucose-1-phosphate, bothL. monocytogenesstrains need to be pre-grown under conditions, where the major virulence regulator PrfA is active. In addition, growth of bothL. monocytogenesstrains was observed when LSM was supplemented with the amino acid sugarN-acetylmannosamine (ManNAc). We were able to show that some of the proteins encoded in the operonlmo2795-nanE, such as the ManNAc-6-phosphate epimerase NanE, are required for growth in presence of ManNAc. The first gene of the operon,lmo2795,encodes a transcriptional regulator of the RpiR family. Using electrophoretic mobility shift assays and quantitative real time PCR analysis, we were able to show that Lmo2795 binds to the promoter region of the operonlmo2795-nanEand activates its expression.Originality-Significance StatementCurrent knowledge of growth and survival of the human pathogenListeria monocytogenesunder diverse stress conditions is mostly generated in complex medium, a condition that is rarely found in the environment or host of the pathogen. Our work contributes to the characterization of the physiology ofL. monocytogenesgrown under nutrient limiting conditions and its growth requirements with regards to metabolizable carbon sources.