Phenotypic plasticity of Escherichia coli at initial stage of symbiosis with Dictyostelium discoideum.

We observed the change in the physiological state of Escherichia coli cells at the initial stage for establishing a new symbiotic relationship with Dictyostelium discoideum cells. For the physiological state, we monitored green fluorescence intensity due to a green fluorescent protein (GFP) gene integrated into the chromosome by flow cytometry (FCM). On co-cultivation of the two species, a new population of E. coli cells with increased GFP concentration appeared, and when the formation of mucoidal colonies housing the coexisting two species began, most E. coli cells were from the new population. Further experiments suggest that the physiological change is induced by interaction with D. discoideum cells and is reversible, although the processes of the changes in both directions seem to proceed gradually. The observed phenotypic plasticity, together with natural selection under a co-cultivation environment, may be important for leading to the evolution of a new symbiotic system.

Global change in Escherichia coli gene expression in initial stage of symbiosis with Dictyostelium cells.

Genome-wide gene expression profiling was performed to investigate the early formation of symbiosis using an artificial symbiosis of Escherichia coli and Dictyostelium discoideum. We have previously reported that when these two species were allowed to grow on minimal agar plates, they achieved a stable state of coexistence, in which the emerging E. coli colonies housing Dictyostelium cells were of a mucoidal nature that was not observed originally. We used this microbiological system as a model to study the initial stages of the development of the symbiotic relationship. The E. coli gene expression profiles of symbiotic cells and non-symbiotic cells captured using GeneChip technology were compared. It was clearly shown that the gene expression profile was substantially altered in E. coli cells undergoing symbiotic transition. The genes responsible for central energy metabolism as well as those responsible for translation apparatus were down-regulated in symbiotic E. coli. The transcriptional patterns of genes coding for the E. coli cell surface structure were drastically altered, and this alteration may determine the mucoidal nature and unique structure of coexisting colonies. General stress inducible genes were expressed at low levels in symbiotic E. coli. These observed changes in the transcription profile indicate that the central metabolism of symbiotic E. coli is attenuated as a whole, and the cells are probably under less stress because of the benefits brought by coexistence with the symbiotic counterpart Dictyostelium.

An observation of the initial stage towards a symbiotic relationship.

Two well-characterized and phylogeneticaly different species, Escherichia coli and Dictyostelium discoideum, were used as the model organisms. When the two species were mixed and allowed to grow on minimal agar plates at 22 degrees C, remarkably, the two species achieved a state of coexistence at an average of 2-4 weeks. In addition, the emerged colonies housing the coexisting species had a mucoidal nature that was not observed from its origin. Moreover, the state of coexistence was confirmed to be stable, and so was the mucoidal nature of the emerged colonies. Comparing with the pure E. coli origin, the mucoidal colony showed a significant increase in higher molecular weight extracellular components, with polysaccharides as the major constituent. Qualitative analysis of the monosaccharide contents in the extracellular components of the mucoidal colony revealed not only a significant increase in the glucose content, but also significant amount of additional xylose and galactose. The system permits the initial stages of the development of relationship between two species be captured within a short period of time. This feature, together with being simple and reproducible in laboratory conditions, provides a new model system for the study of symbiosis, especially when initial stages are concerned.