Insights into the CtrA regulon in development of stress resistance in obligatory intracellular pathogen Ehrlichia chaffeensis

Abstract

Ehrlichia chaffeensis is an obligate intracellular bacterium that causes human monocytic ehrlichiosis. Ehrlichiae have a biphasic developmental cycle consisting of dense-cored cells (DCs) and reticulate cells (RCs). Isolated DCs are more stress resistant and infectious than RCs. Here, we report that a response regulator, CtrA was upregulated in human monocytes at the late growth stage when DCs develop. E.chaffeensis CtrA bound to the promoters of late-stage transcribed genes: ctrA, ompA (peptidoglycan-associated lipoprotein), bolA (stress-induced morphogen) and surE (stationary-phase survival protein), which contain CtrA-binding motifs, and transactivated ompA, surE and bolA promoter-lacZ fusions in Escherichia coli. OmpA was predominantly expressed in DCs. E.chaffeensis binding to and subsequent infection of monocytes were inhibited by anti-OmpA IgG. E.chaffeensis BolA bound to the promoters of genes encoding outer surface proteins TRP120 and ECH_1038, which were expressed in DCs, and transactivated trp120 and ECH_1038 promoter-lacZ fusions. E.chaffeensis bolA complemented a stress-sensitive E.coli bolA mutant. E.coli expressing E.chaffeensis SurE exhibited increased resistance to osmotic stress. Our results suggest that E.chaffeensis CtrA plays a role in co-ordinating development of the stress resistance for passage from the present to the next host cells through its regulon. © 2011 Blackwell Publishing Ltd.