Promoter analysis of the cap8 operon, involved in type 8 capsular polysaccharide production in Staphylococcus aureus.
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The production of type 8 capsular polysaccharide (CP8) in Staphylococcus aureus is regulated in response to a variety of environmental factors. The cap8 genes required for the CP8 production in strain Becker are transcribed as a single large transcript by a primary promoter located within a 0.45-kb region upstream of the first gene of the cap8 gene cluster. In this study, we analyzed the primary cap8 promoter region in detail. We determined the transcription initiation site of the primary transcript by primer extension and identified the potential promoter sequences. We found several inverted and direct repeats upstream of the promoter. Deletion analysis and site-directed mutagenesis showed that a 10-bp inverted repeat of one of the repeats was required for promoter activity. We showed that the distance but not the specific sequences between the inverted repeat and the promoter was critical to the promoter activity. However, insertion of a DNA sequence with two or four helix turns in this intervening region had a slight effect on promoter activity. To demonstrate the biological significance of the 10-bp inverted repeat, we constructed a strain with a mutation in the repeat in the S. aureus Becker chromosome and showed that the repeat affected CP8 production mostly at the transcriptional level. By gel mobility shift assay, we demonstrated that strain Becker produced at least one protein capable of specific binding to the 10-bp inverted repeat, indicating that the repeat serves as a positive regulatory protein binding site. In addition, reporter gene fusion analysis showed that the cap8 promoter activity was influenced by various growth media and affected most by yeast extract. Our results suggest that yeast extract may exert its profound inhibitory effect on cap8 gene expression through the 10-bp inverted repeat element. (+info)
Structural and serological studies on the O-antigen of Proteus mirabilis O14, a new polysaccharide containing 2-[(R)-1-carboxyethylamino]ethyl phosphate.
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An O-specific polysaccharide was obtained by mild acid degradation of Proteus mirabilis O14 lipopolysaccharide (LPS) and found to contain D-galactose, 2-acetamido-2-deoxy-D-glalactose, phosphate, N-(2-hydroxyethyl)-D-alanine (D-AlaEtn), and O-acetyl groups. Studies of the initial and O-deacetylated polysaccharides using one- and two-dimensional 1H- and 13C-NMR spectroscopy, including COSY, TOCSY, NOESY, H-detected 1H,13C heteronuclear multiple-quantum coherence, and heteronuclear multiple-bond correlation experiments, demonstrated the following structure of the repeating unit: [equation: see text] This is the second bacterial polysaccharide reported to contain alpha-D-Galp6PAlaEtn, whereas the first one was the O-antigen of P. mirabilis EU313 taken erroneously as strain PrK 6/57 from the O3 serogroup [Vinogradov, E. V., Kaca, W., Shashkov, A.S., Krajewska-Pietrasik, D., Rozalski, A., Knirel, Y.A. & Kochetkov, N.K. (1990) Eur. J. Biochem., 188, 645-651]. Anti-(P. mirabilis O14) serum cross-reacted with LPS of P. mirabilis EU313 and vice versa in passive hemolysis and ELISA. Absorption of both O-antisera with the heterologous LPS decreased markedly but did not abolish the reaction with the homologous LPS. These and chemical data indicated that both strains have similar but not identical O-antigens. Therefore, we propose that P. mirabilis EU313 should belong to a new subgroup of the O14 serogroup. (+info)
Structure of the O-specific polysaccharide of a serologically separate strain Proteus penneri 2 from a new proposed serogroup O66.
(19/4132)
O-specific polysaccharide chain of Proteus penneri strain 2 lipopolysaccharide was studied by full and partial acid hydrolysis, Smith degradation, methylation analysis, and NMR spectroscopy, including two-dimensional rotating-frame NOE spectroscopy (ROESY) and 1H,13C heteronuclear multiple-quantum coherence (HMQC) experiments. Together with D-glucose and 2-acetamido-2-deoxy-D-glucose, the polysaccharide was found to contain two rarely occurring sugars, 6-deoxy-L-talose (L-6dTal) and 2,3-diacetamido-2,3,6-trideoxy-L-mannose (L-RhaNAc3NAc), and the following structure of a non-stoichiometrically O-acetylated tetrasaccharide repeating unit was established: [equation: see text] The O-specific polysaccharide studied has a unique composition and structure and, accordingly, P. penneri 2 is serologically separate among Proteus strains. Therefore, we propose for P. penneri 2 a new Proteus O-serogroup O66 where this strain is at present the single representative. (+info)
Elucidation of the structure of an alanine-lacking core tetrasaccharide trisphosphate from the lipopolysaccharide of Pseudomonas aeruginosa mutant H4.
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Lipopolysaccharide (LPS) of Pseudomonas aeruginosa rough mutant H4 was isolated by hot water/phenol extraction followed by a modified phenol/chloroform/petroleum ether procedure. Upon SDS/PAGE, the LPS showed a strong major band corresponding to the expected rough-type LPS. Additional faint high molecular-mass bands revealed that the O-chain was present, indicating that the H4 mutant is genetically unstable. Mild acid hydrolysis of the LPS removed lipid A and released a phosphorylated core oligosaccharide that was purified by gel-permeation chromatography and high-performance anion-exchange liquid chromatography. The oligosaccharide contained two residues of L-glycero-D-manno-heptose (Hep) and one residue each of 3-deoxy-D-manno-oct-2-ulosonic acid (Kdo) and GalNAc. Upon matrix-assisted laser desorption/ionization mass spectroscopy in the negative ion mode, the main fraction expressed a peak for the molecular ion [M-H]- at m/z 1106.41, which was compatible with a carbamoylated, trisphosphorylated tetrasaccharide. The structure was further investigated using one- and two-dimensional homonuclear and heteronuclear correlated NMR spectroscopy at pD 3 and, after borohydride reduction, at pD 9. The NMR data of the two phosphorylated tetrasaccharides recorded at different pD allowed determination of the positions of the three phosphate (P) groups and the carbamoyl group (Cm) thus establishing the following structure of the core oligosaccharide: [equation: see text] Two unusual structural features in the core oligosaccharide of P. aeruginosa were identified for the first time, i.e. the replacement of an amide-linked alanyl group in GalN with an acetyl group and the phosphorylation at position 6 of HepII. (+info)
Biosynthesis of the exopolysaccharide galactoglucan in Sinorhizobium meliloti is subject to a complex control by the phosphate-dependent regulator PhoB and the proteins ExpG and MucR.
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The soil bacterium Sinorhizobium meliloti (Rhizobium meliloti) has the ability to produce the alternative exopolysaccharide galactoglucan (EPS II) in addition to succinoglycan (EPS I). In the wild-type strain EPS II production is induced by phosphate-limiting conditions or by extra copies of the exp gene cluster. Based on similarities to transcriptional regulators of the MarR family, an additional putative regulatory gene, expG, was identified in the exp gene cluster. Using exp-lacZ transcriptional fusions, a stimulating effect of extra copies of this expG gene on the transcription of all exp complementation groups was determined. Phosphate limitation also resulted in increased expression of the exp-lacZ fusions. This increase was reduced in strains characterized by a deletion of expG. The previously reported high level of exp gene transcription in a mucR mutant was further elevated under phosphate-limiting conditions. The expA, expD, expG and expE promoters contain sequences with similarities to the PHO box known as the PhoB-binding site in phosphate-regulated promoters in Escherichia coli. The S. meliloti phoB gene was required for the activation of exp gene expression under phosphate limitation, but not for induction of exp expression by MucR or ExpG. (+info)
Differential expression of Vibrio vulnificus capsular polysaccharide.
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Vibrio vulnificus is a human pathogen whose virulence has been associated with the expression of capsular polysaccharide (CPS). Multiple CPS types have been described; however, virulence does not appear to correlate with a particular CPS composition. Reversible-phase variation for opaque and translucent colony morphologies is characterized by changes in CPS expression, as suggested by electron microscopy of cells stained nonspecifically with ruthenium red. Isolates with opaque colony morphologies are virulent and appear to be more thickly encapsulated than naturally occurring translucent-phase variants, which have reduced, patchy, or absent CPS. Previously, we have shown that the virulence of translucent-phase variants was intermediate between opaque-phase variants and acapsular transposon mutants, suggesting a correlation between virulence and the amount of CPS expressed. In the present study, CPS expression of phase variants and genetically defined mutants of V. vulnificus M06-24/O was examined by using a CPS-specific monoclonal antibody with an enzyme-linked immunosorbent assay, flow cytometry, and immunoelectron microscopy. Semiquantitative analyses of CPS expression correlated well among these assays, confirming that the translucent-phase variant was intermediate in CPS expression and retained type I CPS-specific epitopes. Cell surface expression of CPS varied with the growth phase, increasing during logarithmic growth and declining in stationary culture. Significantly greater CPS expression (P = 0.026) was observed for cells grown at 30 degrees C than for those at 37 degrees C. These studies confirm that phase variation and virulence in V. vulnificus correlate with the amount of CPS expressed and demonstrate the fluidity of bacterial polysaccharide expression in response to environmental conditions. (+info)
Relationship between cell surface carbohydrates and intrastrain variation on opsonophagocytosis of Streptococcus pneumoniae.
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Streptococcus pneumoniae undergoes spontaneous phase variation between a transparent and an opaque colony phenotype, the latter being more virulent in a murine model of sepsis. Opaque pneumococci have previously been shown to express lower amounts of C polysaccharide (cell wall teichoic acid) and in this study were shown to have a higher content of capsular polysaccharide by immunoelectron microscopy. This report then examined the relationship between expression of these two cell surface carbohydrate structures and their relative contribution to the increased virulence of opaque variants. Comparison of genetically related strains showed that the differential content of capsular polysaccharide did not affect the amount of teichoic acid as measured by a capture enzyme-linked immunosorbent assay (ELISA). In contrast, when the teichoic acid structure was altered by replacing choline in the growth medium with structural analogs, the quantity of capsular polysaccharide as measured by a capture ELISA was decreased, demonstrating a linkage in the expression of the two surface carbohydrate structures. A standardized assay was used to assess the relative contribution of cell surface carbohydrates to opsonophagocytosis. The opaque variants required 1.2- to 30-fold more immune human serum to achieve 50% opsonophagocytic killing than did related transparent variants (types 6B and 9V). The opsonophagocytic titer was proportional to the quantity of capsular polysaccharide rather than teichoic acid. The major factor in binding of the opsonin, C-reactive protein (CRP), was also the amount of capsular polysaccharide rather than the teichoic acid ligand. Only for the transparent variant (type 6B), which bound more CRP, was there enhanced opsonophagocytic killing in the presence of this serum protein. Increased expression of capsular polysaccharide, therefore, appeared to be the major factor in the decreased opsonophagocytic killing of opaque pneumococci. (+info)
Avidity as a determinant of the protective efficacy of human antibodies to pneumococcal capsular polysaccharides.
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Antibodies reactive with capsular polysaccharides are considered the principal mediators of immunity against invasive diseases caused by Streptococcus pneumoniae. In this study, we tested the hypothesis that anti-pneumococcal capsular polysaccharide (PPS) antibody avidity can influence protective efficacy. We measured the avidities of individual adult postvaccination immunoglobulin G2 (IgG2) antibodies to PPS serotypes 6B and 23F and examined the relationship between avidity and opsonophagocytic and mouse-protective activities. The avidities of PPS 6B- and PPS 23F-specific IgG2 antibodies ranged from 6 to 31 nM-1 and from 3 to 20 nM-1, respectively. We observed an inverse correlation between the magnitude of avidity and the amount of antibody required to protect mice against lethal bacteremia caused by serotype 6B pneumococci. Similarly, higher-avidity antibodies were more effective than lower-avidity antibodies in vitro in mediating complement-dependent opsonophagocytosis of both 6B and 23F pneumococci. These data suggest that in adults, PPS antibodies are sufficiently polymorphic to possess biologically significant variations in avidity. We conclude that avidity functions as an important determinant of anticapsular antibody protective efficacy against pneumococci. (+info)