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Virulent Shigella sonnei synthesize a surface antigen (form I) which appears to be one of several requirements needed for this host to invade epithelial cells. Upon restreaking on agar media, form I cells readily and irreversibly generate form II cells that lack the form I antigen. All form II cells are avirulent. Plasmid deoxyribonucleic acid of form I and II cells of four different S. sonnei isolates, obtained from different areas of the world, was analyzed by agarose gel electrophoresis. A large plasmid (approximately 120 megadaltons in three of the strains) that is present in form I cells was always absent from form II derivatives. Attempts to transfer conjugally only this large plasmid from form I to genetically marked form II cells were unsuccessful. However, a composite molecule, apparently formed by recombination between the large form I plasmid and a self-transmissible plasmid, was found to transfer the form I trait. Transconjugant S. sonnei strains acquiring the form I antigen could retransfer this trait to S. sonnei, Shigella flexneri, or Salmonella typhi. These preliminary findings demonstrate that S. sonnei form I antigen synthesis is mediated by a large plasmid which is lost spontaneously at a relatively high frequency from S. sonnei strains.

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Shigellosis Due to Shigella dysenteriae 1: Relative Importance of Mucosal Invasion versus Toxin Production in Pathogenesis

Gemski

Takeuchi

Washington

et al. 1972

Journal of Infectious Diseases

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Construction of a potential bivalent vaccine strain: introduction of Shigella sonnei form I antigen genes into the galE Salmonella typhi Ty21a typhoid vaccine strain

Formal¹,

Baron²,

Kopecko³

et al. 1981

Infect Immun

183

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Shigella sonnei, an intestinal pathogen, produces a characteristic form I cell surface antigen now known to be plasmid encoded. We considered that the GalE Salmonella typhi Ty21a oral vaccine strain, highly effective against typhoid, might be modified so as to be protective also against shigellosis due to S. sonnei. The plasmid responsible for form I antigen synthesis was therefore conjugally transferred to the galE S. typhi strain. Serological studies revealed that the derivative strain produces the form I antigen in addition to the normal S. typhi somatic antigens. Testing in mice demonstrated that the derivative form I galE S. typhi strain is protective against both S. sonnei and S. typhi challenges. These data suggest that the galE S. Ty21a oral vaccine strain, which presumably stimulates the local immune system in the intestine, may also serve as a useful carrier for other antigenic determinants to protect against different intestinal infections.

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Virulence of Shigella flexneri Hybrids Expressing Escherichia coli Somatic Antigens

et al. 1972

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The genes controlling either Escherichia coli somatic antigen 8 or 25 were conjugally transferred to virulent Shigella flexneri 2a recipients to determine whether the aquisition of these antigens would affect the virulence of the resulting hybrid. A high proportion of such hybrids were found to be rough and hence were avirulent. Some smooth S. fiexneri hybrids which replaced their native group antigens with E. coli factor 25 were still virulent in the animal models employed. All S. flexneri 0-8 hybrids were uniformly avirulent. Our finding, that S. flexneri hybrids with the chemically divergent E. coli 0-8 repeat unit are avirulent whereas some hybrids with the chemically related 0-25 repeat unit retain virulence, suggests that the chemical composition and structure of the 0 side chain of somatic antigens may represent one determining factor for bacterial penetration of mucosal epithelial cells, the primary step in the pathogenesis of bacillary dysentery.

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O. Washington

Invasion of HeLa Cells by Salmonella typhimurium: A Model for Study of Invasiveness of Salmonella

Genetic and physical evidence for plasmid control of Shigella sonnei form I cell surface antigen

Shigellosis Due to Shigella dysenteriae 1: Relative Importance of Mucosal Invasion versus Toxin Production in Pathogenesis

Construction of a potential bivalent vaccine strain: introduction of Shigella sonnei form I antigen genes into the galE Salmonella typhi Ty21a typhoid vaccine strain

Virulence of Shigella flexneri Hybrids Expressing Escherichia coli Somatic Antigens

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