Comparison of the ability of enteroinvasive Escherichia coli, Salmonella typhimurium, Yersinia pseudotuberculosis, and Yersinia enterocolitica to enter and replicate within HEp-2 cells.

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Salmonella typhimurium, enteroinvasive Escherichia coli, Yersinia pseudotuberculosis, and Yersinia enterocolitica possess the ability to enter intestinal epithelial cells. We used a quantitative tissue culture model employing HEp-2 cells to compare the abilities of these bacteria to enter epithelial cells. S. typhimurium and Yersinia species were highly infective for HEp-2 cells but were unable to replicate extensively intracellularly. Enteroinvasive E. coli exhibited low infectivity but replicated extensively intracellularly. The growth of enteroinvasive E. coli led to destruction of the HEp-2 monolayer, whereas Yersinia spp. and S. typhimurium were maintained intracellularly for prolonged periods without damage to the monolayer. The ability of enteroinvasive E. coli to enter HEp-2 cells required prior growth at 37 degrees C; neither S. typhimurium nor Yersinia spp. exhibited this temperature dependence for cell entry. An E. coli K-12 derivative containing a 230-kilobase plasmid from enteroinvasive E. coli was constructed. This derivative shared all the invasive characteristics of the parental enteroinvasive strain, suggesting that determinants required for cell entry and intracellular multiplication were at least partially plasmid encoded. An HB101 derivative containing a cloned invasion determinant from Y. pseudotuberculosis was constructed in our laboratory. HEp-2 monolayers were coinfected with these two K-12 derivatives to compare invasion determinants from enteroinvasive E. coli with those of Y. pseudotuberculosis in a common genetic background. Results from these experiments suggest that these organisms reside within separate intracellular compartments.

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