In Shigella flexneri, the ompB locus (containing the ompR and envZ genes) was found to modulate expression of the vir genes, which are responsible for invasion of epithelial cells. vir gene expression was markedly enhanced under conditions of high osmolarity (300 mosM), similar to that encountered in tissues both extra- and intracellularly. Two ompB mutants were constructed and tested for virulence and for osmotic regulation of vir genes. An envZ::Tn10 mutant remained invasive, although its virulence was significantly decreased as a result of its inability to survive intracellularly. By using a vir::lac operon fusion, this mutation was shown to decrease beta-galactosidase expression both in low- and high-osmolarity conditions but did not affect vir expression in response to changes in osmolarity. A delta ompB deletion mutant was also constructed via allelic exchange with an in vitro-mutagenized ompB locus of Escherichia coli. This mutation severely impaired virulence and abolished expression of the vir::lac fusion in both low- and high-osmolarity conditions. Therefore, a two-component regulatory system modulates virulence according to environmental conditions. In addition, the mutation affecting a spontaneous avirulent variant of S. flexneri serotype 5, M90T, has been mapped at the ompB locus and was complemented by the cloned E. coli ompB locus. Introduction of the vir::lac fusion into this mutant did not result in the expression of beta-galactosidase (Lac-).
A Toxmutant of Shigella dysenteriae 1, SC501, was genetically engineered by cloning the Shiga toxin operon, inserting a cassette into the A subunit gene, and exchanging this in vitro-mutagenized sequence with the wild-type gene. SC501 produced a low amount of residual cytotoxicity which was not neutralized by a rabbit immune serum directed against Shiga toxin. Invasion of cultured cells demonstrated that Shiga toxin had no effect on the rate of intracellular growth of bacteria or on the rapid killing of invaded host cells. On the other hand, several significant differences were observed in macaque monkeys infected intragastrically with either the wild-type strain or its mutant. The production of Shiga toxin by the invading strain was correlated with the presence of blood within stools, a sharp drop in blood polymorphonuclear cells, and histopathological alterations, such as the destruction of capillary vessels within the connective tissue of the colonic mucosa, severe inflammatory vasculitis of the peritoneal mesothelium, and major efflux of inflammatory cells to the intestinal lumen. It is proposed that Shiga toxin influences the severity of bacillary dysentery by inducing colonic vascular damage, which accounts for bloody stools, intestinal ischemia, and inflation of a polymorphonuclear intestinal compartment during the infectious process.
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