BibA: a novel immunogenic bacterial adhesin contributing to group B <i>Streptococcus</i> survival in human blood

Santi, Isabella; Scarselli, María; Mariani, Massimo A.; Pezzicoli, Alfredo; Masignani, Vega; Taddei, Annarita; Grandi, Guido; Telford, John L.; Soriani, Marco

doi:10.1111/j.1365-2958.2006.05555.x

Cited by 95 publications

(91 citation statements)

References 55 publications

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“…Multiple genes known to contribute to GBS host-pathogen interaction were included among the differentially transcribed genes including srr-1, pilus encoding genes, Alp encoding genes, and bibA, which encodes an cell-surface adhesion critical to GBS survival in human blood ( Fig. 5D) (34). An example of the diversity observed among the studied strains comes from the alp3 gene, whose transcript level was ∼25-fold lower in strains SGBS054 and SGBS046 compared with strain SGBS102 (Fig.…”

Section: Polymorphisms In Regulatory Protein Encoding Genes Are Assocmentioning

confidence: 99%

Sequence type 1 group B Streptococcus , an emerging cause of invasive disease in adults, evolves by small genetic changes

Galloway-Peña

Sahasrabhojane

Saldaña

et al. 2015

Proc. Natl. Acad. Sci. U.S.A.

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101

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The molecular mechanisms underlying pathogen emergence in humans is a critical but poorly understood area of microbiologic investigation. Serotype V group B Streptococcus (GBS) was first isolated from humans in 1975, and rates of invasive serotype V GBS disease significantly increased starting in the early 1990s. We found that 210 of 229 serotype V GBS strains (92%) isolated from the bloodstream of nonpregnant adults in the United States and Canada between 1992 and 2013 were multilocus sequence type (ST) 1. Elucidation of the complete genome of a 1992 ST-1 strain revealed that this strain had the highest homology with a GBS strain causing cow mastitis and that the 1992 ST-1 strain differed from serotype V strains isolated in the late 1970s by acquisition of cell surface proteins and antimicrobial resistance determinants. Whole-genome comparison of 202 invasive ST-1 strains detected significant recombination in only eight strains. The remaining 194 strains differed by an average of 97 SNPs. Phylogenetic analysis revealed a temporally dependent mode of genetic diversification consistent with the emergence in the 1990s of ST-1 GBS as major agents of human disease. Thirty-one loci were identified as being under positive selective pressure, and mutations at loci encoding polysaccharide capsule production proteins, regulators of pilus expression, and two-component gene regulatory systems were shown to affect the bacterial phenotype. These data reveal that phenotypic diversity among ST-1 GBS is mainly driven by small genetic changes rather than extensive recombination, thereby extending knowledge into how pathogens adapt to humans.Streptococcus agalactiae | pathogenesis | evolution | single nucleotide polymorphisms | surface protein

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Section: Polymorphisms In Regulatory Protein Encoding Genes Are Assocmentioning

confidence: 99%

Sequence type 1 group B Streptococcus , an emerging cause of invasive disease in adults, evolves by small genetic changes

Galloway-Peña

Sahasrabhojane

Saldaña

et al. 2015

Proc. Natl. Acad. Sci. U.S.A.

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101

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“…Thus, in strain A909, IS1381 interrupts the ORF encoding the cell-wallanchored surface adhesin BibA (Tettelin et al, 2005). BibA is a multifunctional protein involved in the virulence of S. agalactiae by conferring to the bacteria both an increased resistance to opsonophagocytic killing by human neutrophils, and so a better survival in human blood, and a greater adhesion to host cervical and lung epithelial cells (Santi et al, 2007). In strain 2603V/R, IS1381 interrupts a gene (sag2004/sag2001) predicted to encode a conjugal transfer protein belonging to the ConE/YddE family (Tettelin et al, 2002).…”

Section: Mobile Genetic Element Of the Is5 Familymentioning

confidence: 99%

Physiological impact of transposable elements encoding DDE transposases in the environmental adaptation of Streptococcus agalactiae

Fléchard

Gilot

2014

Microbiology

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We have referenced and described Streptococcus agalactiae transposable elements encoding DDE transposases. These elements belonged to nine families of insertion sequences (ISs) and to a family of conjugative transposons (TnGBSs). An overview of the physiological impact of the insertion of all these elements is provided. DDE-transposable elements affect S. agalactiae in a number of aspects of its capability to adapt to various environments and modulate the expression of several virulence genes, the scpB-lmB genomic region and the genes involved in capsule expression and haemolysin transport being the targets of several different mobile elements. The referenced mobile elements modify S. agalactiae behaviour by transferring new gene(s) to its genome, by modifying the expression of neighbouring genes at the integration site or by promoting genomic rearrangements. Transposition of some of these elements occurs in vivo, suggesting that by dynamically regulating some adaptation and/or virulence genes, they improve the ability of S. agalactiae to reach different niches within its host and ensure the 'success' of the infectious process.

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“…The discovery of novel immunogenic virulence factors has also opened new perspectives to tackle GBS-associated infections (4,32). In this context, we considered the characterization of the structural properties of the GBS genes involved in adaptive metabolism of the bacterium to be a necessary step.…”

Section: Discussionmentioning

confidence: 99%

“…(i) Expression and purification. SAP was cloned into pET21-b and expressed as a C-terminal His-tagged fusion protein in BL21(DE3) Escherichia coli cells, as previously described (32). Bacterial cells were harvested and lysed in buffer A (50 mM sodium phosphate [pH 8.0], 300 mM sodium chloride [NaCl], and 10% glycerol, containing 10 mM imidazole) containing lysozyme (0.25 mg/ml), DNases, and Complete EDTA-free protease inhibitors (Roche).…”

Section: Methodsmentioning

confidence: 99%

Group BStreptococcusPullulanase Crystal Structures in the Context of a Novel Strategy for Vaccine Development

et al. 2009

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The group B streptococcus type I pullulanase (SAP) is a class 13 glycoside hydrolase that is anchored to the bacterial cell surface via a conserved C-terminal anchoring motif and involved in ␣-glucan degradation. Recent in vitro functional studies have shown that SAP is immunogenic in humans and that anti-SAP sera derived from immunized animals impair both group A and group B streptococcus pullulanase activities, suggesting that in vivo immunization with this antigen could prevent streptococcal colonization. To further investigate the putative role of SAP in bacterial pathogenesis, we carried out functional studies and found that recombinant SAP binds to human cervical epithelial cells. Furthermore, with a view of using SAP as a vaccine candidate, we present high-resolution crystal structure analyses of an N-terminally truncated form of SAP lacking the carbohydrate binding module but containing the catalytic domain and displaying glycosidase hydrolase activity, both in its apo form and in complex with maltotetraose, at resolutions of 2.1 and 2.4 Å, respectively.

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BibA: a novel immunogenic bacterial adhesin contributing to group B Streptococcus survival in human blood

Cited by 95 publications

References 55 publications

Sequence type 1 group B Streptococcus , an emerging cause of invasive disease in adults, evolves by small genetic changes

Sequence type 1 group B Streptococcus , an emerging cause of invasive disease in adults, evolves by small genetic changes

Physiological impact of transposable elements encoding DDE transposases in the environmental adaptation of Streptococcus agalactiae

Group BStreptococcusPullulanase Crystal Structures in the Context of a Novel Strategy for Vaccine Development

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