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The Fab of a monoclonal anti-carbohydrate antibody, SYA/J6 (IgG3, kappa, murine), raised against the O-polysaccharide antigen of the cell surface lipopolysaccharide of variant Y Shigella flexneri, a Gram negative bacterium, has been crystallized in the unliganded form and in complex with tri- and pentasaccharide antigens. The three crystal forms belong to the tetragonal space group P4(3)2(1)2, or P4(1)2(1)2, with very similar unit cell dimensions and an asymmetric unit that contains one molecule of about 50,000 Daltons, and a fourth crystal form belongs to monoclinic space group P2(1) that contains four molecules of Fab in an asymmetric unit. Whereas diffractions of these crystals on an area detector-rotating anode system extend to only about 3.5 A resolution, those measured using an imaging plate and synchrotron radiation at the Photon Factory facility extend to 2.5 A.
J Mol Biol 1993 May 05
PMID:Preliminary crystallographic analysis of a Fab specific for the O-antigen of Shigella flexneri cell surface lipopolysaccharide with and without bound saccharides. 849 58

Strains of Shigella flexneri isolated from patients in 4 geographic regions of the former USSR have been studied by plasmid analysis and fingerprinting techniques. It has been shown that these methods make possible to differentiate phenotypically identical strains for 9 genotypic patterns (7 different plasmid profiles and 3 specific hybridization patterns). Strains of Shigella flexneri isolated from each region possess the similar hybridization patterns independent of serovar and plasmid profiles. Similar hybridization patterns were found among the strains isolated in Erevan and Dushanbe. The strains isolated in Kiev are related to Erevan and Dushanbe strains, but they also possess the specific additional hybridization bands. Tashkent isolates are different from the strains isolated in other geographic regions. They are also of clonal origin in spite of the different serovars and plasmid profiles registered for these strains. Positive correlation has been found between serovar and plasmid profile characteristics of the strains. The clonal origin of the Tashkent isolates is different from the one of Erevan, Dushanbe and Kiev isolates, the latter having a similar clonal origin.
Mol Gen Mikrobiol Virusol
PMID:[Study of genomic polymorphism of Shigella flexneri strains, isolated in various geographic regions]. 851 Jun 84

Entry of Shigella flexneri into epithelial cells involves secretory proteins, the Ipa proteins, and their dedicated secretion apparatus, the Mxi-Spa translocon, which is encoded by the mxi and spa operons. We have characterized the mxiG gene that is located at the proximal part of the mxi operon. Inactivation of mxiG abolished lpa secretion, which indicates that MxiG is an essential component of the Mxi-Spa translocon. Immunoblotting analysis of membrane fractions suggests that the 42 kDa MxiG protein is associated with both the inner and outer membranes. Taking advantage of the complementation of the mxiG mutant by a plasmid carrying a wild-type copy of mxiG (which restored Ipa secretion, entry into HeLa cells, and cell-to-cell spread) we mutagenized the mxiG gene carried by the complementing plasmid to replace the RGD motif of MxiG by RAD. This mutation (mxiG*), which had no effect on the stability of the protein, did not affect Ipa secretion in vitro or entry into HeLa cells, but impaired intercellular dissemination. Therefore, MxiG and possibly proteins secreted by the Mxi-Spa translocation are involved not only in entry but also in spread of Shigella between epithelial cells.
Mol Microbiol 1995 Aug
PMID:MxiG, a membrane protein required for secretion of Shigella spp. Ipa invasins: involvement in entry into epithelial cells and in intercellular dissemination. 855 65

Since the discovery of Shigella as the aetiologic agent of acute dysentery almost 100 years ago, this organism has been described as a non-motile and nonflagellated organism that invades the human colonic mucosa. In this study, the production of flagella by prototypic strains of all four Shigella species and, moreover, by fresh clinical isolates was demonstrated by electron microscopy. The flagellum of Shigella (flash) is approximately 10 microns long and 12-14 nm in diameter and is typically seen emanating from one pole of the bacterium. Flash is composed of a putative structural polypeptide subunit of 33-38 kDa that shares immunological similarities with Escherichia coli, Salmonella spp., and Proteus mirabilis flagellins, and with the recently described recombinant Shigella flagellins (FliCSS and FliCSF) expressed in E. coli K-12. A fliCSS-specific oligo probe hybridized with all four Shigella species, while a fliCSF probe hybridized with all Shigella flexneri and Shigella dysenteriae strains, but not with all Shigella sonnei or Shigella boydii strains, indicating genetic divergence among their flagellin genes. Shigella exhibits motility in low-concentration motility agar under physiological growth conditions. The expression of flash and motility appears to be strictly regulated by unidentified genetic and environmental factors. These heretofore undescribed features may allow the bacteria to circumvent the natural intestinal mucosal defences leading to bacterial colonization and disease. The motility of shigellae may represent an evolutionary adaptation important for bacterial survival.
Mol Microbiol 1995 Oct
PMID:Expression of flagella and motility by Shigella. 859 61

The gram negative rod Shigella flexneri uses it surface protein IcsA to induce host cell actin assembly and to achieve intracellular motility. Yet, the IcsA protein lacks the oligoproline sequences found in ActA, the surface protein required for locomotion of the gram positive rod Listeria monocytogenes. Microinjection of a peptide matching the second ActA oligoproline repeat (FEFPPPPTDE) stops Listeria locomotion (Southwick, F.S., and D.L. Purich. 1994a. Proc. Natl. Acad. Sci. USA. 91:5168-5172), and submicromolar concentrations (intracellular concentration 80-800 nM) similarly arrest Shigella rocket-tail assembly and intracellular motility. Coinjection of a binary solution containing profilin and the ActA analogue increased the observed rates of intracellular motility by a factor of three (mean velocity 0.90 +/- 0.07 mu m/s, SD n=16 before injection vs 0.3 +/- 0.1 mu m/s, n=33 postinjection, intracellular concentration = 80 nM profilin plus 80 nM ActA analogue). Recent evidence suggests the ActA analogue may act by displacing the profilin-binding protein VASP (Pistor, S.C., T. Chakaborty, V. Walter, and J. Wehland. 1995. Curr. Biol. 5:517-525). At considerably higher intracellular concentrations (10 muM), the VASP oligoproline sequence (GPPPPP)3 thought to represent the profilin-binding site (Reinhard, M., K. Giehl, K. Abel, C. Haffner, T. Jarchau, V. Hoppe, B.M. Jockusch, and U. Walter. 1995. EMBO (Eur. Mol. Biol. Organ.) J. 14:1583-1589) also inhibited Shigella movement. A binary mixture of the VASP analogue and profilin (each 10 muM intracellular concentration) led to a doubling of Shigella intracellular migration velocity (0.09 +/- 0.06 mu m/s, n = 25 preinjection vs 0.18 +/- 0.10 mu m/s, n = 61 postinjection). Thus, the two structurally divergent bacteria, Listeria and Shigella, have adopted convergent mechanisms involving profilin recognition of VASP oligoproline sequences and VASP recognition of oligoproline sequences in ActA or an ActA-like host protein to induce host cell actin assembly and to provide the force for intracellular locomotion and cell-cell spread.
...
PMID:Recognition of two classes of oligoproline sequences in profilin-mediated acceleration of actin-based Shigella motility. 860 12

In this paper we describe the molecular characterization of hrpB, the largest operon in the Xanthomonas campestris pv. vesicatoria hrp cluster. The hrpB region encompasses 6 kb and encodes eight putative proteins, seven of which were expressed in Escherichia coli. The HrpB3 protein is the only one carrying a signal peptide sequence at the N-terminus and is a putative lipoprotein localized in the outer membrane of X. campestris pv. vesicatoria. The HrpB4 and HrpB8 proteins contain one and five putative transmembrane domains, respectively, and are most likely associated with the inner membrane. The HrpB3, HrpB5, HrpB6, and HrpB8 proteins show sequence similarity to putative components of different type III protein secretion pathways in bacteria. Examples include Hrp proteins from other plant pathogens, YscJ, YscN, YscL, and YscT of Yersinia spp., and MxiJ, Spa47, adn Spa29 of Shigella flexneri. The transcription start site and the hrpB promoter was identified. The minimal hrpB promoter region of 90 bp contains a novel sequence motif, the PIP-box, which might play a role in transcription activation of the hrpB operon and possibly other plant-induced genes of X. campestris pv. vesicatoria.
Mol Plant Microbe Interact
PMID:Sequence and expression analysis of the hrpB pathogenicity operon of Xanthomonas campestris pv. vesicatoria which encodes eight proteins with similarity to components of the Hrp, Ysc, Spa, and Fli secretion systems. 866 94

Strains in the genus Shigella are nonmotile, but they retain some cryptic flagellar operons whether functional or defective (A.Tominaga, M. A.-H. Mahmoud, T. Mukaihara, and M. Enomoto, Mol. Microbiol. 12:277-285, 1994). To disclose the cause of motility loss in shigellae, the presence or defectiveness of the flhD and flhC genes, composing the master operon whose mutation causes inactivation of the entire flagellar regulon, was examined in the four Shigella subgroups. The flhD operon cloned from Shigella boydii and Shigella sonnei can activate, though insufficiently, the regulon in the Escherichia coli flhD or flhC mutant background. The clone from Shigella dysenteriae has a functional flhD gene and nonfunctional flhC gene, and its inactivation has been caused by the IS1 element inserted in its 5' end. The operon of Shigella flexneri is nonfunctional and has suffered an IS1-insertion mutation at the 5' end of the flhD gene. Comparison of restriction maps indicates that only the central 1.8-kb region, including part of the flhC gene and its adjacent mot operon, is conserved among the four Shigella subgroups as well as in E. coli, but in Salmonella typhimurium the whole map is quite different from the others. Motility loss in shigellae is not attributable to genetic damage in the master operon of a common ancestor, but it occurs separately in respective ancestors of the four subgroups, and in both S. dysenteriae and S.flexneri IS1 insertion in the master operon might be the primary cause of motility loss.
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PMID:Detection and characterization of the flagellar master operon in the four Shigella subgroups. 868 72

A virulence-associated region in the genome of Dichelobacter nodosus has been shown to contain an integrase gene which is highly related to the integrases of Shigella flexneri phage Sf6 and coliphages P4 and phi R73, together with open reading frames (vapB, C and D) related to genes borne on plasmids in Neisseria gonorrhoeae, Escherichia coli, Actinobacillus actinomycetemcomitans and Treponema denticola. Similar to P4 and phi R73, the vap region is bracketed by putative bacteriophage att sites and is adjacent to a tRNA gene, which suggests that the vap region has been derived by the integration of a bacteriophage, or a plasmid carrying a bacteriophage-related integrase gene. Many similarities in genes and genes clusters encoding virulence determinants have been found in distantly related bacteria. These genes are often located on plasmids in one organism but on the chromosome in others, implying that transmission of the genes has been followed by integration. Thus, the events which have generated the vap regions of D. nodosus may represent a common mechanism for transfer of virulence determinants. A number of genes involved in the virulence of bacterial pathogens are found on integrated bacteriophages, and we suggest that others will prove to be associated with tRNA genes and/or integrase genes derived from bacteriophages. The use of tRNA genes as integration sites for many bacteriophages and plasmids may favour intergeneric transmission, as tRNA genes are highly conserved.
Mol Microbiol 1995 Oct
PMID:A role for bacteriophages in the evolution and transfer of bacterial virulence determinants. 870 40

Cloning of the rfb genes of Shigella flexneri 2a into Escherichia coli K-12 strain DH1 results in the synthesis of lipopolysaccharides (LPS) with an O-antigen chain having type antigen IV and group antigens 3,4. During genetic studies of these rfb genes in E. coli K-12, we observed that strains harbouring plasmids with certain mutations (inversion and transposon insertions) which should have blocked O-antigen synthesis nevertheless still produced LPS with O-antigen chains. These LPS migrated differently on silver-stained SDS-polyacrylamide gels, compared with the LPS produced by wild-type rfb genes, and the group 3,4 antigens were barely detectable, suggesting that the O-antigen was altered. Investigation of the genetic determinants for production of the altered O-antigen/LPS indicated that: (i) these LPS are produced as a result of mutations which are either polar on rfbF or inactivate rfbF; (ii) the rfbX gene product (or a similar protein in the E. coli K-12 rfb region) is needed for production of the altered O-antigen in the form of LPS; (iii) the rfbG gene product is required for the production of both the parental and altered LPS; (iv) the dTDP-rhamnose biosynthesis genes are required. Additionally, an E. coli K-12 gene product(s) encoded outside the rfb region also contributes to production of the O-antigen of the altered LPS. An antiserum raised to the altered LPS from strain DH1(pPM2217 (rfbX::Tn1725)) was found to cross-react with nearly all S. flexneri serotypes, and with the altered LPS produced by other DH1 strains harbouring plasmids with different rfb mutations, as described above. The reactivity of the altered LPS with a panel of monoclonal antibodies specific for various S. flexneri O-antigen type and group antigens demonstrated that their O-antigen components were closely related to that of S. flexneri serotype 4. The RfbF and RfbG proteins were shown to have similarity to rhamnose transferases, and we identified a motif common to the N-termini of 6-deoxy-hexose nucleotide sugar transferases. We propose that the E. coli K-12 strains harbouring the mutated S. flexneri rfb genes produce LPS with a hybrid O-antigen as a consequence of inactivation of RfbF and complementation by an E. coli K-12 gene product. Analysis of the genetic and immunochemical data suggested a possible structure for the O-antigen component of the altered LPS.
Mol Microbiol 1995 Oct
PMID:Lipopolysaccharide with an altered O-antigen produced in Escherichia coli K-12 harbouring mutated, cloned Shigella flexneri rfb genes. 870 41

Listeria monocytogenes and Shigella flexneri are two unrelated facultative intracellular pathogens which spread from cell to cell by using a similar mode of intracellular movement based on continuous actin assembly at one pole of the bacterium. This process requires the asymmetrical expression of the ActA surface protein in L. monocytogenes and the IcsA (VirG) surface protein in S. flexneri. ActA and IcsA share no sequence homology. To assess the role of the two proteins in the generation of actin-based movement, we expressed them in the genetic context of two non-actin polymerizing, non-pathogenic bacterial species, Listeria innocua and Escherichia coli. In the absence of any additional bacterial pathogenicity determinants, both proteins induced actin assembly and propulsion of the bacteria in cytoplasmic extracts from Xenopus eggs, as visualized by the formation of characteristic actin comet tails. E. coli expressing IcsA moved about two times faster than Listeria and displayed longer actin tails. However, actin dynamics (actin filament distribution and filament half-lives) were similar in IcsA- and ActA-induced actin tails suggesting that by using unrelated surface molecules, L. monocytogenes and S. flexneri move intracellularly by interacting with the same host cytoskeleton components or by interfering with the same host cell signal transduction pathway.
Mol Microbiol 1995 Nov
PMID:The unrelated surface proteins ActA of Listeria monocytogenes and IcsA of Shigella flexneri are sufficient to confer actin-based motility on Listeria innocua and Escherichia coli respectively. 874 26

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